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  • Offer Profile
  • Cubert provides real time spectral imaging in various application fields such as remote sensing, life science, machine vision etc.

    Snapshot spectral imaging

    我们的目标是将光谱成像我的力量nto the hands of everybody. Capture spectral images with the ease of simple point and click cameras.

    Spectral mapping

    Spectral mapping puts the power of spectral analysis into the field. Analyze plant properties like plant health, nutrition or stress level with our cameras.

    Hyperspectral control suit

    Cubert Utils makes your application possible. All devices are equipped with the same industry leading application for spectral imaging and analysis.

Product Portfolio
  • Spectral Cameras

      • FireflEYE (Hyperspectral)

          • FireflEYE SE – Hyperspectral camera

            • wavelength range: 450nm – 950nm 125 channels
            • resolution: 8 nm @ 532 nm sampling 4 nm
            • pan resolution: 1 Megapixel 2500 spectra / cube
            • elongated version, weight 490g
            • power consumption 8W @ 12V

            Easy and reliable imaging spectrometer for UAV

            Cubert年代185是我们的再保险最轻的版本volutionary full frame imaging technology. Thus it combines the precision of hyperspectral cameras with the ease of use of a snapshot camera. In combination, this camera provides the smartest access to hyperspectral areal images you could ever imagine. With no need of an IMU you will get full hyperspectral cubes in 1/1000 of a second! Furthermore the preprocessed cubes are transferred to the ground station during flight and you can start to analyze your areal hyperspectral images already on site!

            The difference to push broom technology

            The S 185 uses a unique technology which establishes a fair balance between areal resolution and spectral resolution. The result is an imaging spectrometer with no need for scanning (like push broom technology) or image combination after fast filter shifts. Our technology provides clean hyperspectral images out of the box without any moving artifacts. During the development of the Firefly we miniaturized our laboratory platform. The weight was reduced from 3 kg to a total weight of 490 g (including camera). This was achieved by the use of lightweight and yet stable materials like aluminum and Kevlar. Due to the abstinence of any moving part, the package provides a light but longtime stable product. In combination with an industry grade processing unit for the on air data storage and the ground communication, we achieve a ready to fly weight of as low as 840 g.

            Snapshot hyperspectral imaging

            • Full frame hyperspectral imaging in the Vis-NIR
            • No moving artifacts due to low integration time
            • WiFi remote control of all parameters
            • Real time hyperspectral preview on the ground
            • Hyperspectral video
          • FireflEYE XL- Hyperspectral camera

            • wavelength range options: 380 nm – 800 nm or 600 nm -1000 nm or 450 nm – 950 nm
            • resolution: 10 nm @ 532 nm sampling 4.5 nm
            • pan resolution: 1 Megapixel 4900 spectra / cube
            • weight 1.2kg, power consumption 8W @ 12V

            Advanced optical design

            The S 485 is based on our new optics design. The device was developed with high fidelity in mind. Thus it features a higher spectral resolution of 4900 spectra per cube. As special feature we implemented an interchangeable prism giving you the freedom to choose from different wavelength range options.

          • FireflEYE QE- Hyperspectral camera

            • wavelength range: 450nm – 950nm 125 channels
            • resolution: 8 nm @ 532 nm sampling 4 nm
            • pan resolution: 1 Megapixel 2500 spectra / cube
            • standard housing – IP54 splash proof
            • 3m cable weight 3Kg, power consumption 8W @ 12V

            Top Innovation of 2015

            The Q 285 is the first of its kind full frame, non-scanning, imaging spectrometer. Our technology combines the simplicity of a point-and-shoot camera with the precision of hyperspectral imaging. This VIS to near-infrared imaging spectrometer was designed having industry, laboratory and outdoor use in mind. With its IP67 certification it is especially designed for rough environments and long term stability. The unique working principle guarantees easy access to hyperspectral images, real time processing up to hyperspectral video frame rates.

            Full frame hyperspectral imaging:

            The goal of our development was an easy to handle imaging spectrometer with no need for scanning (like push broom technology) or image combination after fast filter shifts. Instead of the slit of a push broom scanning device we use a spatial grid which images two dimensional data points trough the spectral apparatus onto the CCD. Recalculation of the interwoven spatial and spectral information gives us direct access to the hyperspectral cube with every frame captured. This process takes as little as 1/1000 of a second. Thus there are no moving artifacts, no hassle with translation stages and no restrictions in speed. All that technology was packed into a waterproof, dustproof and shock-resistant housing which guarantees long term stability and lets you use the system where you need it. With this technology you get unique advantages above all available systems on the market, which enables absolutely new and outstanding applications.

            Snapshot hyperspectral imaging:
            • Rapid hyperspectral cube acquisition: 1/1000s!
            • No moving artifacts
            • Real hyperspectral videos
            • Rugged and robust (IP67)
            • Plug and play
          • FireflEYE MT- Hyperspectral camera for microscopes

            • Full integration into microscope
            • Microscopy grade Data storage Software
            • wavelength range: 450nm – 950nm 125 channels
            • resolution: 8 nm @ 532 nm sampling 4 nm
            • pan resolution: 1 Megapixel 2500 spectra / cube
            • weight 500g, power consumption 8W @ 12V integration and calibration into microscope

            Easy and reliable imaging spectrometer for Microscopes

            The M 185 is based on our scientific grade multi point spectrometer S 185. It features all the advanced Hyperspectral Imaging properties of the S185 and adds a proper adaption to typical Microscopic setups from Zeiss, Olympus or Leica. The working principle of the Device is very close to usual Snapshot RGB cameras. Your workflow will not change in comparison to your RGB documentation system except a much higher level of spectral information in each pixel. If you are interested in observing fast kinetics, Fluorescence signals or Cell changes, we believe this is the easiest way to start with microscopic hyperspectral imaging.

            The difference to push broom technology

            The UHD 185 uses a unique technology which establishes a fair balance between areal resolution and spectral resolution. The result is an imaging spectrometer with no need for scanning (like push broom technology) or image combination after fast filter shifts. Our technology provides clean hyperspectral images out of the box without any moving artifacts. During the development of the Firefly we miniaturized our laboratory platform. The weight was reduced from 3 kg to a total weight of 470 g (including camera and optics). This was achieved by the use of lightweight and yet stable materials like aluminum and Kevlar. Due to the abstinence of any moving part, the package provides a light but longtime stable product.

            Snapshot hyperspectral imaging
            • Full frame hyperspectral imaging in the Vis-NIR
            • No moving artifacts due to low integration time
            • WiFi remote control of all parameters
            • Real time hyperspectral preview on the ground
            • Hyperspectral video
          • FireflEYE UW- underwater Hyperspectral camera

            • wavelength range: 450nm – 950nm
            • resolution: 8 nm @ 532 nm sampling 4 nm
            • pan resolution: 1 Megapixel 2500 spectra / cube
            • waterproof 5m, 10m cable
            • weight 4,5Kg, power consumption 8W @ 12V

            Worldwide first underwater Hyperspectrometer

            The S 685 is our first solution for full frame imaging underwater spectroscopy. The device features minimum of 5 meter water resistance for a dive duration of 1 hour.

            685年代是基于our industrial grade Q 285. The S 685 is the first of its kind full frame, non-scanning, imaging spectrometer solely designed for underwater use. Our technology combines the simplicity of a point-and-shoot camera with the precision of hyperspectral imaging.

            Full frame hyperspectral imaging:

            The goal of our development was an easy to handle imaging spectrometer with no need for scanning (like push broom technology) or image combination after fast filter shifts. Instead of the slit of a push broom scanning device we use a spatial grid which images two dimensional data points trough the spectral apparatus onto the CCD. Recalculation of the interwoven spatial and spectral information gives us direct access to the hyperspectral cube with every frame captured. This process takes as little as 1/1000 of a second. Thus there are no moving artifacts, no hassle with translation stages and no restrictions in speed. All that technology was packed into a waterproof, dustproof and shock-resistant housing which guarantees long term stability and lets you use the system where you need it. With this technology you get unique advantages above all available systems on the market, which enables absolutely new and outstanding applications.

            Snapshot hyperspectral imaging:

            • Rapid hyperspectral cube acquisition: 1/1000s!
            • No moving artifacts
            • Real hyperspectral videos
            • Plug and play
        • ButterflEYE (Filter on chip)

            • ButterflEYE NIR – Mosaic Multispectral camera

              • wavelength range: 600 nm – 1000 nm
              • spectral channels: 25 channel width: 20nm
              • resolution: 400 x 218
              • smart camera, SD card slot
              • lens system: C-Mount
              • weight 300g power 15W @ 9-15V

              Filter-on-chip spectral Imager

              The Cubert S 137 is based on a highly integrated filter-on-chip technology. This design combines 25 single spectral channels in mosaic design with QVGA resolution. We integrated this with a state of the art intelligent camera and completed the whole setup with our industry leading spectral camera software. This package enables data acquisition, data storage and data processing directly on the camera. Altogether we deliver to you the most integrated and lightweight spectral camera available on the market. Together with our set of accessories you get the fastest access to UAV based imaging ranging from 600 to 1000 nm enabling applications in remote sensing and everywhere else.

              Special features

              • 25 Channels, mosaic
              • Control panel for computerless operation
              • Data storage on camera SD-card
              • Wireless remote operation possible

              Mosaic spectral imagers

              The Butterfleye cameras uses a unique filter on chip technology which opens up a sweet spot between multi-chip multispectral cameras and full-blown hyperspectral cameras. With a medium spectral resolution of 16 to 25 channels the device enables a spatial resolution higher than QVGA. Everything is combined in a smart camera module which enables not only the data storage directly on the device, but also application related post processing on the camera itself. The device features computer less operation with a action-cam-like operation scheme making it easy to set up and use it in the field. With our spectral imaging software we bring you a versatile tool for data acquisition and processing, and offer full access to remote operation.
            • ButterflEYE LS- Multispectral camera

              • wavelength range: 470 nm – 900 nm
              • spectral channels: 160 channel width: 5-10nm
              • 解析:2像素的行扫描
              • smart camera, SD card slot + SSD
              • lens system: C-Mount
              • up to 30 fps
              • weight 300g power 15W @ 9-15V

              Full Frame linescan Hyperspectrometer

              The S 199 is based on linear filter-on-chip spectral imager technology. This imager operates at high frame rates on unmanned aerial vehicles to generate over 160-channel hyperspectral maps with a ground resolution of up to 9 cm, or higher. This lightweight hyperspectral mapping solution is the first of its kind, featuring high spatial and spectral resolution without the need of compromise. The whole device is build with ease of use in mind. The data processing is done by a cloud based service, allowing you to concentrate on your application.

              Special features

              • Turnkey solution for hyperspectral mapping
              • 160 Channels
              • Cloud Service Data processing
              • Data storage on camera SSD or SD
              • Wireless remote operation possible

              Processing solutions tailored for your applications

              The S 199 is a complete solution for high resolved hyperspectral mapping from UAVs. It offers the unique combination of very high spatial and high spectral resolution, thus enabling a whole new range of applications. Those exceptional features are realized by capturing linear filtered frames at very high frame rates with an image overlap of 99% during flight. After flight, the software solution provided by VITO is generating a hyperspectral ground map. To handle the data processing, a cloud based service is provided, offering optimal scalability. The processing does not stop at the provision of spectral datamaps. True to our moto – Acquire, Process, Interprete, Act – we are supporting you with processing solutions tailored for your applications. For further information, please talk to our application engineers.

              Stronger through Cooperation

              The S 199 is build in cooperation with VITO Remote Sensing. VITO is a leading innovator in remote sensing imaging solutions for different applications and it has developed a unique software solution for spectral mapping.

            • ButterflEYE VIS – Mosaic Multispectral camera

              • wavelength range: 470 nm – 630 nm
              • spectral channels: 16 channel width: 20nm
              • resolution: 512×272
              • smart camera, SD card slot
              • lens system: C-Mount
              • weight 300g power 15W @ 9-15V

              Filter-on-chip spectral Imager

              The Cubert S 128 is based on a highly integrated filter-on-chip technology. This design combines 16 single spectral channels in mosaic design with QVGA resolution. We integrated this with a state of the art intelligent camera and completed the whole setup with our industry leading spectral camera software. This package enables data acquisition, data storage and data processing directly on the camera. Altogether we deliver to you the most integrated and lightweight spectral camera available on the market. Together with our set of accessories you get the fastest access to UAV based imaging. The spectral range from 470 to 600 nm enabling applications in remote sensing and everywhere else.

              Special features
              • 16 Channels, mosaic
              • Control panel for computerless operation
              • Data storage on camera SD-card
              • Wireless remote operation possible

              Mosaic spectral Imagers

              The Butterfleye cameras uses a unique filter on chip technology which opens up a sweet spot between multi-chip multispectral cameras and full-blown hyperspectral cameras. With a medium spectral resolution of 16 to 25 channels the device enables a spatial resolution higher than QVGA. Everything is combined in a smart camera module which enables not only the data storage directly on the device, but also application related post processing on the camera itself. The device features computerless operation with a action-cam-like operation scheme making it easy to set up and use it in the field. With our spectral imaging software we bring you a versatile tool for data acquisition and processing, and offer full access to remote operation.

            • ButterflEYE NIR Q137 – Mosaic Multispectral Camera

              • Industrial grade housing
              • Dust and Waterproof IP65 / IP67
              • wavelength range: 600 nm – 1000 nm
              • spectral channels: 25 channel width: 20nm
              • spectral resolution: 400 x 218
              • smart camera
              • lens system: C-Mount
              • weight 600g Power 12W @ 24V

              Industrial grade spectral Imager

              The Cubert Q137 is based on the same highly integrated filter-on-chip technology which is already used in our scientific grade S137. It inherits all the intelligence and advanced data processing features of the S137 and integrates this into an industry grade housing.This design combines 25 single spectral channels in mosaic design with 2 Megapixel resolution. We integrated this with a state of the art intelligent camera and completed the whole setup with our industry leading spectral camera software.

              This package enables data acquisition, data storage and data processing directly on the camera. Altogether we deliver to you the most integrated and lightweight spectral camera available on the market.

              Special features
              • Industrial grade housing
              • Dust and Waterproof
              • Spectral control Suit integrated in device
              • 25 Channels, mosaic
              • Control panel for computerless operation
              • Wireless remote operation possible

              Mosaic spectral imagers

              The ButterflEYE cameras uses a unique filter on chip technology which opens up a sweet spot between multi-chip multispectral cameras and full-blown hyperspectral cameras. With a medium spectral resolution of 16 to 25 channels the device enables a spatial resolution of 2 Megapixels. Everything is combined in a smart camera module which enables not only the data storage directly on the device, but also application related post processing on the camera itself. The device features computer less operation with a action-cam-like operation scheme making it easy to set up and use it in the field. With our spectral imaging software we bring you a versatile tool for data acquisition and processing, and offer full access to remote operation.

            • ButterflEYE VIS Q128 – Mosaic Multispectral camera

              • Industrial grade housing
              • Dust and Waterproof IP65 / IP67
              • wavelength range: 470 nm – 630 nm
              • spectral channels: 16 channel width: 20nm
              • resolution: 512×272
              • smart camera
              • lens system: C-Mount
              • weight 600g power 12W @ 24V

              Industrial grade spectral Imager

              The Cubert Q128 is based on the same highly integrated filter-on-chip technology which is already used in our scientific grade S128. It inherits all the intelligence and advanced data processing features of the S128 and integrates this into an industry grade housing. This design combines 25 single spectral channels in mosaic design with 2 Megapixel resolution. We integrated this with a state of the art intelligent camera and completed the whole setup with our industry leading spectral camera software.

              This package enables data acquisition, data storage and data processing directly on the camera. Altogether we deliver to you the most integrated and lightweight spectral camera available on the market.

              Special features
              • Industrial grade housing
              • Dust and Waterproof
              • Spectral control Suit integrated in device
              • 16 Channels, mosaic
              • Control panel for computerless operation
              • Wireless remote operation possible

              Mosaic spectral imagers

              The ButterflEYE cameras uses a unique filter on chip technology which opens up a sweet spot between multi-chip multispectral cameras and full-blown hyperspectral cameras. With a medium spectral resolution of 16 to 25 channels the device enables a spatial resolution of 2 Megapixels. Everything is combined in a smart camera module which enables not only the data storage directly on the device, but also application related post processing on the camera itself. The device features computer less operation with a action-cam-like operation scheme making it easy to set up and use it in the field.

          • DragonflEYE (Multichannel)

                • DragonflEYE C4 – Multispectral camera

                • Option: 4 Channel of your Choice or RGB + 3 Channel of your Choice
                  • wavelength range: 380 nm – 1100 nm
                  • 3 to 4 channels of choice
                  • resolution: 1296×966 Nikon mount
                  • 体重600克,鲍威r 15W @ 9-15V

                  Cubert Labs

                  In Cubert Labs you will find the newest technology from our current market introductions and development projects. We are very happy to discuss the applications of these early products with you. These products are prototypes or upcoming products in development or production stage. The availability may differ from the information stated here. The specs may change slightly till release. Please ask our sales team for further details.

                  DragonflEYE C4

                  STATUS: in Production
                  expected initial shipment: December 2016

                  Six spectral channels, one optical path

                  The S 219 is a highly integrated spectral imager, capable of measuring four to six different spectral colors with a 4 Megapixel resolution. This device is easy to use and adaptable to your application. The optical and electrical design helps you focus on your mission. All colors are captured exactly on the same time and from exactly the same viewing angle. A global shutter prevents further moving artifacts. This is what we consider a snapshot imager. There is no need for preprocessing. The camera has an integrated processing board and all data is saved on one SD-card. We are happy to talk with you about filter settings for your specific application.

                  Reliable and easy

                  This camera was designed to make your application more reliable and easy. With a nearly free choice of optical filters we are able to deliver you exactly what it takes to bring spectral imaging into the field. The goal of our development was an easy to handle affordable spectral imager. We wanted to tackle the obstacles of existing multichannel imagers. Therefore we developed an optical design which combines 4 sensors through one optical path. In combination with an intelligent camera design and our spectral imaging software we give you the easiest to use multispectral imager available. We are happy to discuss your applications.

            • Cubert Labs (upcoming Products)

                • Butterfly X2 – Dual Sensor, VIS NIR Spectral Camera

                  • wavelength range: 450 nm – 950 nm
                  • spectral channels: 41 channel width: 20nm
                  • resolution: QVGA
                  • smart camera, SD card slot
                  • lens system: C-Mount
                  • weight 450g power 15W @ 5V

                  ButterflEYE X2

                  STATUS: in Production
                  expected initial shipment: October 2016

                  First of its kind, snapshot spectral imager

                  The ButterflEYE X2 is based on our successful range of ButterflEYE cameras. In this small setup, two filter on chip sensors are optically overlaid to give you the full VIS-NIR wavelength range. This device combines 41 spectral bands in the range of 450 to 950nm. With our sophisticated data fusion technology, you do not have to care about post process the data. You have access to full spectral cubes with the size of 2000 x 1000 x 41 channels with each readout of the sensors. The intelligent camera platform will take care about the data acquisition, the data fusion, the storage and the processing without the need of an external computer. All that is combined with our industry leading spectral imaging software for data capturing and analysis.

                  Special features

                  • First VIS-NIR filter on chip camera on the market
                  • Sofisticated sensor fusion
                  • No need for post process, data storage on SD-card
                  • Tablet App for remote control

                  What you should know

                  由于马赛克过滤芯片tec的本质hnology is not possible to produce a full VIS-NIR spectra on one single chip. Due to the need of accurate cut off filters, the sensors are typically covering the visible from 470-600nm or the near infrared from 600-1000nm. If you are in the need of the full VIS-NIR spectra, the ButterflEYE X2 is the solution. It combines two filter on chip mosaic sensors imaging through one single lens. The device features computerless, action-cam-like operation. With our plugin architecture it is possible to define your own spectral applications, load them to the camera and enjoy the online output of the results with our brand new tablet application. Spectral imaging can not get more simple than that.

                • FireflEYE Touch

                  • wavelength range: 450nm – 950nm 125 channels
                  • resolution: 8 nm @ 532 nm sampling 4 nm
                  • pan resolution: 1 Megapixel 2500 spectra / cube
                  • elongated version, weight 1kg
                  • power consumption 8W @ 12V

                  FireflEYE Touch

                  • STATUS: Prototype
                  • first shipments passed
                  • availability: 4-5 month production time

                  Easy and reliable imaging spectrometer for ground use

                  Cubert年代185是我们的再保险最轻的版本volutionary full frame imaging technology. Thus it combines the precision of hyperspectral cameras with the ease of use of a snapshot camera. In combination, this camera provides the smartest access to hyperspectral areal images you could ever imagine. With no need of an IMU you will get full hyperspectral cubes in 1/1000 of a second! Furthermore the preprocessed cubes are transferred to the ground station during flight and you can start to analyze your areal hyperspectral images already on site!

                  Snapshot hyperspectral imaging

                  • Touch interface
                  • Augmented Reality with life filters
                  • Full frame hyperspectral imaging in the Vis-NIR
                  • No moving artifacts due to low integration time
                  • WiFi remote control of all parameters
                • DragonflEYE L6- Multispectral camera

                • Option: 6 Channel of your Choice or RGB + 5 Channel of your Choice
                  • low cost solution
                  • wavelength range: 380 nm – 1100 nm
                  • 6 channels of choice
                  • resolution: 6 x 1,3 MP
                  • Objective: 6 x S-Mount
                  • weight 500g, power 15W @ 5V

                  DragonflEYE L6

                  STATUS: Prototype, testing
                  Prototypes available on demand
                • DragonflEYE C4 – Multispectral camera

                • Option: 4 Channel of your Choice or RGB + 3 Channel of your Choice
                  • wavelength range: 380 nm – 1100 nm
                  • 3 to 4 channels of choice
                  • resolution: 1296×966 Nikon mount
                  • 体重600克,鲍威r 15W @ 9-15V

                  DragonflEYE C4

                  STATUS: in Production
                  expected initial shipment: December 2016

                  Six spectral channels, one optical path

                  The S 219 is a highly integrated spectral imager, capable of measuring four to six different spectral colors with a 4 Megapixel resolution. This device is easy to use and adaptable to your application. The optical and electrical design helps you focus on your mission. All colors are captured exactly on the same time and from exactly the same viewing angle. A global shutter prevents further moving artifacts. This is what we consider a snapshot imager. There is no need for preprocessing. The camera has an integrated processing board and all data is saved on one SD-card. We are happy to talk with you about filter settings for your specific application.

                  Reliable and easy

                  This camera was designed to make your application more reliable and easy. With a nearly free choice of optical filters we are able to deliver you exactly what it takes to bring spectral imaging into the field. The goal of our development was an easy to handle affordable spectral imager. We wanted to tackle the obstacles of existing multichannel imagers. Therefore we developed an optical design which combines 4 sensors through one optical path. In combination with an intelligent camera design and our spectral imaging software we give you the easiest to use multispectral imager available. We are happy to discuss your applications.

              • Cubert Utils

                  • Cubert Utils (light)

                  • All the basic features for simple spectral imaging
                    • User interface: Cubert Touch
                    • License for one PC
                    • Easy to use camera operation
                    • Remote Control
                    • Spectral Imaging and data correction
                    • Indexer and false color calculation
                    • Data Export

                    Features everything you need

                    The Cubert Utils light feature everything you need for an effortless work with Hyperspectral cameras. In contrast to a lot of our competitors also the small version of our Software features a full spectral correction of the data. In result you can concentrate on your measurement tasks and the Software takes care about the rest. The included tablet application is focused on real world applications for people wanting to get results on site without a full blown scientific over-cluttered surface.

                    Industry leading spectral imaging Applications

                    Today we want to introduce our brand new Cube pilot Application for Touch interface and tablets. This application lets you easily connect to all of our hyperspectral camera and control them with a touch of your thumb. You are able to set basic operation modes, like Integration Time and Framerate and calibrate the device with a single click. You can choose from capturing single images or videos.

                    User friendly touch application

                    The Cube-Pilot app also features our user configurable plugin database. With this you are able to upload your hyperspectral data analysis to the camera and get immediate results.
                  • Cubert Utils (developer)

                  • Software on site license for up to 3 computers
                    • User interface: Cubert Touch and Cubert Pilot
                    • Includes SDK for easy programming and 1 year of developer support
                    • Includes Source code
                    • License for five PC and 2 years of updates
                    • Easy to use camera operation
                    • Remote control
                    • Spectral imaging and data correction
                    • Indexer and false color calculation
                    • Data export to multiple formats

                    Development made easy

                    Are you a developer and want to change the way spectral cameras are used in the future. We love the ingenuity of our Costumers and want to support you to the fullest. With this package you get full access to all development features of the camera and maximum support from our side. Get full access to our knowledge and get access to novel functionalities months before they are released. Get full impact on our development road map and enjoy 5 included licenses and special support. If you want to talk about your application, we are happy to secure your ideas with an NDA.

                    Example of 30 min development

                    Your package comes fully loaded with all features we developed. In this small video we developed a ripeness monitor for palm oil fruit within 30 minutes after seeing the samples for the first time.

                    SDK implementation and Source code

                    Included in this Package is a full SDK implementation, Documentation and even Source code.
                    我们的系统可以让您的软件架构fully control our devices from (nearly) any programming language available. To demonstrate this easy process we implemented additional user interfaces in different languages. These example interfaces are starting points to get you running with your own application development. The code of this interfaces is open source and free of charge for you to use, modify and distribute. At the moment we provide two demo interfaces
                    • Simple to use SDK
                    • Communication with the camera from (nearly) any computer language possible
                    • Example Python interface (Python is a simple to learn and open source programming language)
                    • Example Matlab interface (Matlab is a very successful language for scientific computing)
                    • You get the source code of both interfaces
                  • Cubert Utils (professional)

                  • Software on site license for up to 3 computers
                    • User interface: Cubert Touch and Cubert Pilot
                    • Includes SDK for easy programming
                    • License for three PC and 2 years of updates
                    • Easy to use camera operation
                    • Remote control
                    • Spectral imaging and data correction
                    • Indexer and false color calculation
                    • Data export to multiple formats

                    For Research

                    The Cubert Utils professional suit features everything you need to solve complicated scientific tasks. It features the ease of use of the smaller packages and combines it with great features for advanced data processing. Enjoy the easy workflow of a real hyperspectral control unit. You do not have to care about complicated data enhancements, but you also do not loose the grip on RAW data. Control the camera remotely. Program the device with very easy scripting tools. Export all the data your favorite scientific software.

                    Features of the Cubert Pilot

                    The Cubert software suit features the Cube-Pilot software interface, a very easy to use graphical interface for the control of hyperspectral cameras. The software is designed to let you concentrate on your measurement task and forget about the complexity of the hardware. With this software tool you are able to do all necessary settings and calibrations of the camera, perform your measurements and also do basic data analysis.
                    • enhanced export options
                    • online calculations
                    • 用户可配置的插件
                    • Remote control
                    • Export to scientific software
                    • and much more

                    The application is divided into four sections.

                    1. In the upper part the workflow of a typical measurement is resembled. You begin in the setup part, where you also calibrate the camera. After calibration you switch to the measurement part where you perform your hyperspectral imaging with a single click. After your successful measurements you will find some basic analysis tools in the analysis part and also export capabilities to Envi, Excel, txt and also bitmaps.

                    2. All recorded data will be stored to disk automatically and are listed in the lower left part. The images are saved with name, date and time whereby the upper image is the latest one.

                    3. You can view a large representation of every image you measured with the camera in the middle of the screen. The images are displayed in 3 channel false color or 1 channel false color view. Here you can also select single spectra, region of interests etc.

                    4 In the lower right part of the screen the selected spectra will be plotted

                • Applications

                • Applications of Spectroscopy

                  Spectroscopy is widely used for the chemical analysis of matter of various kind. Spectrometers are used for the contactless chemical analysis in virtually any field of interest. Imaging spectrometers provide the opportunity for simple spatially resolved chemical analysis. Applications range from remote sensing applications over quality control in the food industry to plastics separation in the waste industry.

                  The Cubert GmbH provides the first of its kind, high resolution full frame imaging spectrometer. It records 2D-spatial information and all spectral bands at the same time. The complete imaging process takes as little as 1 ms (e.g. for measurements in sunlight). In contrast to the standard point or line scanning spectrometers, this novel technique is capable of the spectral imaging of moving objects or the work from small moving platforms without any image distortion. Additionally it offers the possibility of spectroscopic video capturing and analysis in real time.

                  New fields of application

                  This technique enhances old working fields of spectral imaging and enables completely new fields of application. For scientific users the hyperspectral imaging of fast processes is finally possible. Furthermore it enables distortion-free hyperspectral imaging from UAV platforms in remote sensing. In industrial applications this technique is the hassle-free alternative to the widely used monochrome and RGB industrial cameras with the only difference that, instead of the light intensity or the color, the chemical signature of the product can be observed.
                    • Remote Sensing

                    • Remote Sensing for small Aircraft

                      Demand for information about the health of our planet Earth has grown exponentially over the years. Remote Sensing is the science of obtaining that information, usually about objects or areas from a distance, mostly from an aircraft or satellites.
                      Cubert has been leading the way in the Remote Sensing market with their evolving and innovative range of multispectral and hyperspectral sensors. Focusing their efforts on deploying their sensors on Remotely Piloted Aircraft Systems (RPAS), this typically involves UAV’s, such as rotary copters, fixed wing aircraft and also manned aircraft.

                      Demands in Agriculture

                      Remote Sensing has a wide range of applications in many different fields e.g. Natural resource management; Ocean applications, Coastal applications; Hazard assessment and Precision farming. Precision farming is without doubt the biggest growth area as this is being driving by the global demand for food. This market is expected to grow to $4.8 Billion USD by 2020.
                      Cuberts product range is ideally suited to serve this market due to their small, lightweight design, and robustness, that gives reliable and repeatable performance. This makes them the perfect sensor for any RPAS platform, not only in the air but also on the ground with farmers and researchers turning to Automated Steering Systems for ground based measurements.
                      Remote Sensing in conjunction with Cuberts sensors will allows researchers to cover a fast amount of inaccessible territory rapidly and precisely.
                        • UAV Mapping with FireflEYE

                        • 3D Spectral mapping with UAV snapshot cameras

                          The paper we present you here describes a novel method to derive 3D hyperspectral information from lightweight snapshot cameras for unmanned aerial vehicles for vegetation monitoring. Snapshot cameras record an image cube with one spectral and two spatial dimensions with every exposure. First, we describe and apply methods to radiometrically characterize and calibrate these cameras. Then, we introduce our processing chain to derive 3D hyperspectral information from the calibrated image cubes based on structure from motion.

                          A novel way of quality assurance

                          该方法包括一个质量assu新颖方法rance of the data which is used to assess the quality of the hyperspectral data for every single pixel in the final data product. The result is a hyperspectral digital surface model as a representation of the surface in 3D space linked with the hyperspectral information emitted and reflected by the objects covered by the surface. In this study we use the hyperspectral camera Cubert UHD 185-Firefly, which collects 125 bands from 450 to 950 nm. The obtained data product has a spatial resolution of approximately 1 cm for the spatial and 21 cm for the hyperspectral information. The radiometric calibration yields good results with less than 1% offset in reflectance compared to an ASD FieldSpec 3 for most of the spectral range. The quality assurance information shows that the radiometric precision is better than 0.13% for the derived data product. We apply the approach to data from a flight campaign in a barley experiment with different varieties during the growth stage heading (BBCH 52 – 59) to demonstrate the feasibility for vegetation monitoring in the context of precision agriculture. The plant parameters retrieved from the data product correspond to in-field measurements of a single date field campaign for plant height (R2 = 0.7), chlorophyll (BGI2, R2 = 0.52), LAI (RDVI, R2 = 0.32) and biomass (RDVI, R2 = 0.29). Our approach can also be applied for other image-frame cameras as long as the individual bands of the image cube are spatially co-registered beforehand.
                        • UAV Mapping with ButterflEYE

                        • Introducing the ButterflEYE LS

                          Cubert GmbH, the leading provider of real time, non-scanning, imaging spectrometers, that combines the simplicity of a point and shoot camera with the precision of hyperspectral imaging, teamed up earlier this year with VITO’s Remote Sensing Unit. The idea was to develop the COSI Cam, a low cost, revolutionary high ground resolution hyperspectral imager, utilizing the novel hyperspectral imaging chip developed by IMEC (Belgium).

                          After a few months of designing and developing the sensor, the hard work of the VITO and Cubert team finally paid off as the first prototype of the COSI Cam took to the skies over Southern Germany this week.

                          Utilizing the dedicated test site next to the Cubert HQ, with access to corn crops, apple orchards and various types of vegetation. The COSI cam was mounted onto a small UAV, this enables the sensor to monitor hundreds of hectares in a single flight. The COSI Cam is designed to meet the fast growing remote sensing market that covers a vast range of applications, such as; agriculture, precision farming, yield prediction, forest management, biomass, fertilizer management and crop health to name but a few key examples.

                          Initial results are extremely promising thanks to the fast and easy imaging method combined with a reliable processing developed by VITO to gain ready to use action and information maps.

                          VITO Remote Sensing and Cubert have come to an agreement to commercialize the system and it will be included into the Cubert hyperspectral imaging system portfolio as the first high resolution hyperspectral mapping device. Cubert will brand the new sensor under their ButterflEYE range of imaging products, the ButterflEYE LS.

                          Technology

                          The newly branded ButterflEYE LS is based on linear filter-on-chip spectral imager technology. The imager operates at high frame rates on unmanned aerial vehicles (UAV’s) to generate over 160 spectral channel hyperspectral maps with a ground resolution of up to 9cm. The imager is built with ease of use in mind, as there is a control panel for computerless operation, all data is stored on camera SSD hard drive, combined with wireless remote operation.

                          Conceptually the system is very similar to a standard digital camera as it acquires 2-dimensional images of the scene. However, the hyperspectral capability, which allows to sense the visible and near infrared spectral range through narrow bands, is realized using a disruptive thin film filter technology which is directly deposited at the image sensor chip of the camera. The spectral bands are arranged per line, with groups of 5 to 8 adjacent lines having the same spectral response.

                          A unique property of the specific camera design and processing approach is that it is able to produce maps with a very high spatial resolution (e.g. 9cm from 180m altitude). As a result, the system allows to support single plant monitoring in, for instance small experimental field plots of a few m² each and covering a total area of about 1 ha, as has been demonstrated using rotary wing Remote Piloted Aircraft Systems (RPAS). Embarked on a suitable fixed wing RPAS system the system is able to cover also larger areas of hundreds of ha in a single flight mission at resolutions of 10 cm which is more suitable for operational monitoring.

                          Image processing software

                          The image processing workflow is developed by VITO and involves several steps:
                          • pre-processing
                          • hyperspectral datacube generation
                          • raster calculation and compositing
                        • Field applications for HSI

                        • A new form of Remote Sensing

                          Imaging spectroscopy has widely been used by satellite and airborne platforms. Recent technological developments have opened new ways in spectral-spatial data acquisition. Imaging spectroscopy is now available also for ground truthing and novel field imaging measurements.

                          Mobile spectroscopy to the fullest

                          Cubert revolutionized portable spectral imaging. Our state-of-the-art technology combines full frame technique with high precision spectroscopy. Cubert´s imaging field spectrometer produces a full spectral image at much higher speeds (1 ms) and frequencies (25 Hz) than conventional hyperspectral line scanners. One of the key benefits of our field imaging spectrometer is its portability that enables hand-held imaging spectroscopy. Under proper illumination conditions off-nadir spectroscopic measurements are applicable and reasonable. This capability extends field spectroscopy to landscape spectroscopy.

                          Imaging spectroscopy anytime and anywhere

                          便携式成像领域的光谱将会改变你ur attitude about field data acquisition. Unlike hyperspectral line scanners, a snapshot imaging spectrometer can spectrally capture randomly and quickly moving objects and processes. By the extremely increased temporal resolution a new technique came true: the hyperspectral video. Vehicle based imaging spectroscopy can be experienced at an advanced way providing innovative applications for under water research, unmanned aerial platforms and much more. Next generation field remote sensing can focus more on real-time spectral object tracking and identification without limitations in time and space. Take advantage of field imaging spectroscopy right now!
                      • Machine Vision

                      • Advanced machine vision

                        Machine vision gives eyes to a computer by giving it one or more RGB video cameras and helping it understand its surroundings. The resulting data is then downloaded to a computer or robot controller.

                        By introducing Cuberts spectral imaging products adds a new dimension to machine vision by combining the simplicity of a point and shoot camera with the precision of hyperspectral imaging. This technology is a game changer and is opening up new application possibilities. Not only can we sort by colour, we can now sort by different stages of quality. Spectral imaging will be the key differentiator with respect to quality inspection of;
                        • Fruit – Apples, citrus fruit, tomatoes, strawberries, almonds, peanuts
                        • Vegetables – Cauliflowers, potatoes, cucumbers, mushrooms
                        • Meat, pork, and chicken
                        • Seafood – Salmon, cod, prawns
                        • Grains – wheat, barley, maize
                        • Biofilms – food packaging
                        • The recycling market is also benefiting from this technology in terms of sorting different types of plastics, paper, and waste electronics.
                        Improvements in data analysis would elevate the processing speed of hyperspectral imaging data, making lower cost multispectral platforms the best choice for machine vision sorting in the future.
                              • Fruit ripeness

                              • Quality control of fruits

                                农产品质量控制是一个非常common application of hyperspectral imaging. In this demonstration we use a FireflEYE S 185 with a simple halogene illumination to detect ripeness of palm oil fruit. We compare three different palm oil fruit samples. One in an unripe stadium, one is medium ripe and one is very ripe and ready to harvest.

                                Fast adaption to new products

                                The preparation of the costum-designed filter took only thirty minutes after examining the fruits for the first time.
                                Hyperspectral imaging is a very useful tool for the determination of the ripeness of agricultural products.
                          • Life Science

                          • Life Science

                            Life sciences covers a multitude of diverse areas and applications, from microorganisms, plants, animals, and human beings, covering topics such as medicine and drug discovery, cancer, biology and biotechnology and the list goes on and on.
                            Cuberts range of real time non-scanning imaging spectrometers, that combines the simplicity of a point ‘n’ shoot camera with the precision of hyperspectral imaging, provide an excellent optical platform for researchers and manufacturers to diagnose and detect various types of cancers and diseases. More recently hyperspectral imaging is being trialed for early detection of Alzheimers and brain tumors with modest success.

                            Non Scanning Spectral Imaging

                            The Cubert design is a non-scanning design, a full frame (snapshot) spectral image is taken in less than a millisecond providing 2,500 to 100 thousands of single spectra per cube and up to 20 cubes per second. This means that unlike many of their competitors who generally use push broom technology with a line scan camera, they have to move either the sensor or the sample to build up their data cube, which sometimes can take a long time depending on size of the sample (patient) and the lighting conditions. This can be extremely difficult when the operating room is limited in space or a microscope manufacturer has to include some sort of linear motion device into their design. This can prove costly in terms of time and money.

                            Device Range

                            Cubert recently launched multiple cameras capable of applications for microscopy, ranging form the FireflEYE to the ButterflEYE Systems. All of our cameras offer state of the art diagnostic tool for pathology and cytogenetic labs, as well as OEM microscope manufacturers.
                                • Microscopy

                                • The medical sector, especially the pathology, is one of our fields of interest. Cubert´s hyperspectral camera can be used with nearly every front optic. To obtain pathological information the Hedgehog UHD 285 was adapted to a microscope (Axiophot from Zeiss). The goal is the development of methods for the dye-free diagnosis of cancer. That would enable a much faster and cheaper diagnosis. Which speeds up surgery and cuts down the time the patient needs to be in anesthesia while waiting for the result of the pathologist. Therefore we use the hyperspectral data to enhance the detection of different diseases.

                                  Setup

                                  An UHD 285 was adapted to the measurement port of an Axiophot from Zeiss. Measurements where performed in the wavelength range of 450 – 750 nm with 75 spectral channels. The spatial resolution was 1 MPixel. The recordings are made in transmitted light with an integration time of 5 or 10 ms. The frame rate was up to 15 Hz and magnification could be chosen of 20 and 40 times.

                                  Measurements of collagen

                                  Collagen is a group of naturally occurring proteins found in humans and animals. In the human body the collagen content is more than 30% of the total weight of all proteins. It is a very important component of connective tissue and of the skin.

                                  Measurements of skin

                                  Skin is the most versatile organ. It serves as a barrier to the outside, a protection from environmental influences and it takes over important functions in the realm of metabolism and immunology. It consists of three layers: the epidermis, the dermis and the subcutaneous tissue (or hypodermis).
                            • Featured Technology

                                • Devices

                                    • MPS - Multi point spectrometer

                                    • Short Info

                                      The multi point spectrometer technology works with a special prism spectrometer setup. In this spectrometer the slit is divided a multi-plain array into a multipoint grid. By an intelligent ordering of the point structure you can measure spectra in the full field of view. To make a more detailed measurement a pan sharping sensor is used in parallel.

                                      Summary
                                      • For UAVs and Lab
                                      • very high spectral fidelity
                                      • 1 MPix pan sharping image
                                      • VIS-NIR range 125 Channels
                                      • 12Bit/14Bit
                                      • Full frame measurement

                                      Advantages
                                      The multi point spectrometer technology has a lot of advantages compared to line scanning, filter on chip or multi sensor devices. Some of them are:
                                      • Single shot measurement
                                      • High spectral fidelity
                                      • No movement of device or sample
                                      • No moving artefacts
                                      • Continues spectra
                                      • Completed overview over the measurement field
                                      • High spectral resolution
                                      • High detailed scientific datasets

                                      Cubert’s Integrated Multi Point Spectrometer

                                      All Cubert devices are snapshot devices with no moving parts. One of the core technology here is the multi point spectrometer technology, the technology makes it possible to take high quality spectral measurements in the whole field of view. The integrated spectrometer contains also a pan sharpening sensor to have a detailed overview. With this set you can work with spectral and spatial information of your sample. Working with the Cubert software you can instantly analyse your measurement.

                                      Multi Point Spectrometer

                                      多一点光谱仪技术是特别的made for full frame spectral measurements containing a continuous spectra. Since the spectras are generated with a quite conservative setup you will experience high fidelity spectral accuracy. By taking the measurement with one single shot there will be no gaps in the spectra. So there is no loss of information in the spectra because of filter gaps.

                                      Multi point spectrometer are working with a special spectrometer setup. The closest technology are the push broom scanning devices. The big difference between both ideas is, that in the multi point spectrometer the linear entrance slit of the spectrometer is divided separate small pinholes. By intelligent ordering this pinholes in to a regular grid, you get spectra from the whole field of view. To make the system more light efficient a special lens grid is used in front of the spectrometer. With this high sensitive setup you can reach integration times like standard photo cameras.

                                      Pan Sensor Approach

                                      To get a more detailed over view over the image a pan sharpening sensor is used in the Cubert hyper spectral camera. This pan sharpening sensor uses the same optical path like the spectrometer does. By mechanical overlaying of both, pan and spectrometer sensor, and precise factory calibration both sensors measure the same field of view. To make it nice looking the Cubert software calculate a pan sharped hyperspectral image, by using linear interpolation. However, if you need raw spectral and spacial measurement you can easily reach them by changing view type or export mode.
                                    • LFC - Linear Filter on Chip

                                    • Short Info

                                      The newly branded ButterflEYE LS is based on linear filter-on-chip spectral imager technology. The imager operates at high frame rates on unmanned aerial vehicles (UAV’s) to generate 160 spectral channel hyperspectral maps with a ground resolution of up to 10 cm.

                                      Summary
                                      • High framerate mapper
                                      • VIS NIR range with 160 channels
                                      • Ground resolution down to 10 cm
                                      • For rotary type UAVs
                                      • 完全集成的cloud software solution

                                      Advantages
                                      • 完全集成传感器和地图软件
                                      • Highest product of spectral and spatial resolution available
                                      • Cloud software solution
                                      • Easy accessible hyperspectral mapping data
                                      • Fully integrated sensor
                                      • Mid range price

                                      Description
                                      令人印象深刻的谱映射


                                      The newly branded ButterflEYE LS is based on linear filter-on-chip spectral imager technology. The imager operates at high frame rates on unmanned aerial vehicles (UAV’s) to generate over 160 spectral channel hyperspectral maps with a ground resolution of up to 9 cm. The imager is built with ease of use in mind, as there is a control panel for computerless operation, all data is stored on camera SSD Harddrive, combined with wireless remote operation.
                                      Figure 1. Imaging concept of the COSI-Cam with linear variable filter (left), a single raw image of the COSI-Cam (right)

                                      Conceptually the system is very similar to a standard digital camera as it acquires 2-dimensional images of the scene. However, the hyperspectral capability, which allows to sense the visible and near infrared spectral range through narrow bands, is realized using a disruptive thin film filter technology which is directly deposited at the image sensor chip of the camera. The spectral bands are arranged per line, with groups of 5 to 8 adjacent lines having the same spectral response.
                                      The imaging concept of the camera is shown in figure 1. The thin film filters were deposited on a 2 Megapixels high sensitivity CMOS image sensor by the micro-electronics laboratory Imec giving a continuous coverage of the 450 to 950 nm spectral range with 160 narrow band filter responses (FWHM 5 to 10 nm) .
                                      A unique property of the specific camera design and processing approach is that it is able to produce maps with a very high spatial resolution (e.g. 9cm from 180m altitude). As a result, the system allows to support single plant monitoring in, for instance small experimental field plots of a few m² each and covering a total area of about 1 ha, as has been demonstrated using rotary wing Remote Piloted Aircraft Systems (RPAS). Embarked on a suitable fixed wing RPAS the system is able to cover also larger areas of hundreds of ha in a single flight mission at resolutions of 10 cm which is more suitable for operational monitoring.

                                      Image Processing Software

                                      The image processing workflow is developed by VITO and involves several steps:
                                      • pre-processing
                                      • hyperspectral datacube generation
                                      • raster calculation and compositing
                                    • FOC - Filter on Chip

                                    • Short Info

                                      The filter on chip devices are based on IMECs innovative Fabry-Perot filterset. In this regard Cubert is IMEC premium partner and offers unique solutions to the market. Together with IMEC we developed the ButterflEYE X2 which is the first of its kind Vis-NIR mosaic spectral imagar. But we also offer the more indigenous IMEC devices, like the ButteflEYE NIR and VIS.

                                      In contrast to our competition we deliver the devices with a full blown spectral imaging application which gives you access to spectral data instead of uncorrected Fabry-Perot Channels.

                                      Summary
                                      • 16-25-40 channels
                                      • Mosaic filter devices
                                      • Integrated data aquisition
                                      • Storage on SSD or SD card
                                      • Full featured UAV mapping devices
                                      • Full featured spectral imaging software included

                                      Advantages
                                      • Full corrected spectral imaging
                                      • Fully integrated device
                                      • Button Control (ooperation without computer)
                                      • Autonomous operation
                                      • remote control
                                      • GPS and UAV integration ready

                                      Cubert’s Integrated Technologies

                                      Here at Cubert, we provide solutions that integrate many new technologies into our camera. Cubert is looking ahead to find an integral solution for consumer oriented markets. One of the technologies we implement in our solutions is the mosaic sensor designed by IMEC and integrated into our ButterflEYE solutions. This technology provides the ability, with regards to hyperspectral imaging to be able to allow multiple applications to provide a solution where scanning is not possible.

                                      Mosaic Technology

                                      The mosaic technology allows for a spectral filter to be used for every pixel of a captured image. These mosaics are split into two different versions. One version is in a 4×4 format (allowing for 16 spectral bands) and the other version is a 5×5 format (allowing for 25 spectral bands. Both versions are in a full array of 2 million pixels (5.5µm) in size. The 4×4 mosaic chip collects data within the visible range of the visual spectrum (470-630nm) and the 5×5 mosaic chip collects data from within the non-visible range (NIR) of the visual spectrum (600-1000nm).

                                      This technology allows for a wide range of uses from large applications to anything as small as your handheld device like a smartphone or tablet. Of course, this technology also allows for an expanded capture range on both the visible and non-visible spectrum, particularly on the visible spectrum side where the range has been extended to 470nm. What makes these chips ideal for Cubert products is that the technology is self is flexible and catered to the needs of many industries as an off-the-shelf commercial product or as a more meticulously designed solution for specific target speed rates, band selection, cost, etc. As Cubert strives to be a leader in the market of hyperspectral imagery, this flexibility in technology allows for Cubert to implement these technologies in state-of-the-art products such as the ButterflEYE and ButterflEYE x2 spectral imagers.

                                      ButterflEYE Integration

                                      Cubert provides two solutions within our ButterflEYE solution currently, both with features that work with many applications and multiple environments. Since Cubert has been the first company to focus on snapshot hyperspectral imaging, we introduced the first high resolved snapshot hyper spectrometer. As we have moved forward with our technology, we have started to successfully integrate the specialty mosaic chips as outlined above into our line of spectral camera products. With the ButterflEYE, we are able to use this technology to offer real-time spectral imaging for a wide range of values in the spectral waveform. Our ButterflEYE spectral imager offers two great solutions for application in UAV’s, precision farming, medical applications, remote sensing and many more. The options we give to users are the S/Q 128 version and the S/Q 137 version. The S/Q 128 provides a spectral coverage of 470-630nm on 16 channels and our S/Q 137 version provides a spectral coverage of 600-1000nm on 25 channels. The reason why our product can outdo the competition is that not only will our spectral imagers allow you to take real-time spectral images in HD, but they also allow for local storage on an SD device with the option of post processing on the camera itself. This makes the ButterflEYE S/Q128/137 a truly remarkable model in the imaging market worthy of use in many areas and within many industries.

                                      ButterflEYE X2 Integration

                                      You’ve seen what the mosaic chip technology can do to produce a truly spectacular product such as the ButterflEYE. The innovation doesn’t stop there, though! With the new ButterflEYE X2 spectral imager, new possibilities are endless. This is the first of its kind in the industry where we have integrated 2 mosaic chips instead of one. This allows us to cover an even wider array of both the visible and non-visible spectrum in our imagers. Cubert has been ahead of the curve in this technology and has successfully increased the ability of our imagers by allowing the user to now capture 41 spectral bands within the range of 450-950nm combined. This also opens up a new era of intelligent spectral camera imaging where you now gain access to full spectral cubes of 2000 x 1000 x 41 channels with every sensor readout. Being the first VIS-NIR chip camera on the market, Cubert has successfully fused the two chips together creating a new ability to cover the entire VIS-NIR spectra. The ButterflEYE X2 seamless combines the chips through one lens and offers a computer less action camera type operation. Cubert has made their two ButterflEYEs become one, potentially becoming one of the most lucrative spectral imaging solutions available on the market.
                                    • MSC - Multi sensor cameras

                                    • Up to 6 – Pixel Synchronous Sensors!

                                      Our multi-sensor cameras can be equipped with up to six pixel synchronous sensors. With our optical system we can combine up to four sensors through one optical path and preserv the principle axis. This will result in a fully costomizable sprectral camera without the need for any optical correction and makes it perfect for industrial near field (smaller 100m) applications.

                                      Summary
                                      • 2, 4, 6 sensors
                                      • One intelligent backend
                                      • Pixel syncronous readout
                                      • Storage on SSD or SD-Card
                                      • Button control, Autonomous opperation
                                      • no computer needed
                                      • Online results

                                      Advantages
                                      The CMOS or CCD sensors possess global shutter. They are connected to the camera base unit by a flex-foil-cable with LVDS transmission and can be positioned freely. The image data is coordinated on a dedicated FPGA module. Multi-sensor cameras produce pixel-synchronous images from several positions, as required for 3D reconstruction and stereo vision, for example. Light section, cray code and phase shift processes can even be applied to moving objects when using multi-sensor cameras.

                                      All intelligent cameras build in cooperation with VRmagic are equipped with the DaVinci processor from Texas Instruments, featuring a 300 MHz ARM9 processor running the Linux operating system, and a 600 MHz DSP with 4800 MIPs, which is entirely available for image processing tasks. The cameras are equipped with 256 MB RAM and a 512 MB flash module. The supported interfaces include Ethernet, USB 2.0 Host, RS232 and General Purpose I/O, analog video output as well as an optional digital video output and audio interface.
                                  • Cubert - Utils

                                  • Smart control suit for Hyperspectral Cameras. The Cubert- Utils software suit features the Cubert-Pilot software interface, the Cubert -Touch graphical user interface and the Cubert – SDK. The software is designed to let you concentrate on your measurement task and forget about the complexity of the hardware. With this software tool you are able to do all necessary settings and calibrations of the camera, perform your measurements and also do basic data analysis.

                                    Includes:

                                    • Cubert – Pilot
                                    • Cubert – Touch
                                    • Cubert – Flight
                                    • Cubert – SDK

                                    SDK- Implementations in your language

                                    We are aware, that we power innovators. We provide you with everything from an easy to use SDK to source code to develop your applications:

                                    我们的系统可以让您的软件架构fully control our devices from (nearly) any programming language available. To demonstrate this easy process we implemented additional user interfaces in different languages. These example interfaces are starting points to get you running with your own application development. The code of this interfaces is open source and free of charge for you to use, modify and distribute. At the moment we provide two demo interfaces

                                    • Simple to use SDK
                                    • Communication with the camera from (nearly) any computer language possible
                                    • Example Python interface (Python is a simple to learn and open source programming language)
                                    • Example Matlab interface (Matlab is a very successful language for scientific computing)
                                    • You get the source code of both interfaces
                                      • Cubert - Pilot

                                      • Features of the Cubert Pilot

                                        The Cubert software suit features the Cube-Pilot software interface, a very easy to use graphical interface for the control of hyperspectral cameras. The software is designed to let you concentrate on your measurement task and forget about the complexity of the hardware. With this software tool you are able to do all necessary settings and calibrations
                                        of the camera, perform your measurements and also do basic data analysis.

                                        • enhanced export options
                                        • online calculations
                                        • user configurable plugins
                                        • remote control
                                        • export to scientific software

                                        The application is divided into four sections.

                                        1. In the upper part the workflow of a typical measurement is resembled. You begin in the setup part, where you also calibrate the camera. After calibration you switch to the measurement part where you perform your hyperspectral imaging with a single click. 2. After your successful measurements you will find some basic analysis tools in the analysis part and also export capabilities to Envi, Excel, txt and also bitmaps.
                                        All recorded data will be stored to disk automatically and are listed in the lower left part. The images are saved with name, date and time whereby the upper image is the latest one.
                                        3. You can view a large representation of every image you measured with the camera in the middle of the screen. The images are displayed in 3 channel false color or 1 channel false color view. Here you can also select single spectra, region of interests etc.
                                        4. In the lower right part of the screen the selected spectra will be plotted
                                      • Cubert - Touch

                                      • Industrie leading spectral imaging Applications

                                        Today we want to introduce our brand new Cubert Touch application for tablet interfaces. This application lets you easily connect to all of our hyperspectral camera and control them with a touch of your thumb. You are able to set basic operation modes, like integration time and framerate and calibrate the device with a single click. You can choose from capturing single images or videos.

                                        User friendly touch application

                                        The Cube Touch app also features our user configurable plugin database. With this you are able to upload your hyperspectral data analysis to the camera and get immediate results.
                                      • Cubert - User Plugins

                                      • The full package of Cubert Utils feature fully customization of hundreds of user plugins. With this feature it is possible to develop new applications within minutes. After definition you can program the camera to display your application and make an inline integration to an industrial pipeline
                                      • Cubert - Changelog

                                      • Edelweiss 1.5.3
                                        • Updates to UHD 485 FireflEYE XL
                                        • Updates plug-in engine (beware: minor update to schema definition)
                                        • Slower but more robust timelapse mode.
                                        • GUI remembers last directory.
                                        • GUI sets measurement directory to selected directory if in local mode.
                                        • GUI drag and drop for file list (directories) and for preview canvas (cub files) enabled.
                                        • Added missing 64 Bit redistributable (for UHD 285 + 64 Bit version).
                                        • GUI now able to show remote directory in remote mode.
                                        • Activate Camera Flash by default.
                                        • Bugfix for C-Link fixed ENVI-headers.
                                        • Bugfix for C-Link fixed crash on ENVI export.
                                        • Bugfix for C-Link Export not truncated at 32000 anymore (workaround GDI+ Bug).
                                        • Bugfix for GUI Radiometric Calibration date not shown properly.
                                        • Bugfix for GUI FileInfo dialogue not showing correct values.
                                        • Bugfix for GUI Correlator.
                                        • Bugfix for GUI Square / Free-form / Line selector.
                                        • Bugfix for GUI sometimes showing wrong measurement axis in plot preview.

                                        Edelweiss 1.5.2
                                        • Function-adding release
                                        • Added plugin engine
                                        • Added GPS (NMEA serial devices)
                                        • Changed multi-page Tiff to pyramid-multi-page-tiff (e.g. for Agisoft)
                                        • Introduces 64 Bit version (productive)
                                        • Several bugfixes in GUI
                                        • Bug fix for genuine / sharpen brightness

                                        Edelweiss 1.5.1
                                        • Added support for UHD 485 FireflEYE XL
                                        • Bugfixes with MultiTiff / Envi export
                                        • Bugfix “Back images” after LoadRef command
                                        • Bugfixes in Cube-Pilot stability

                                        Edelweiss 1.5.0
                                        • Function-adding release.
                                        • Added Mulit-Tiff export w. custom channels, labels and pan sharpening and first-layer gray
                                        • 掺anced Envi export w. custom channels and pan sharpening and first-layer gray
                                        • Added custom pan sharpening
                                        • Added Auto-exposure (auto-avoids over-illuminated spectra)
                                        • Added Auto-usage of maximum possible MTU (UHD 185).
                                        • Added Auto-delay setting upon incomplete images (for UAV units)
                                        • 掺anced Timelapse / Series function, (up to 10+ FPS (depending on system), aribtrary length)
                                        • Scaling Dark and white w. integration time (in auto-exp mode)
                                        • Programs prevents system’s sleep state.
                                        • Console beep sounds added (start , init cam / init cam failed, capture / capture failed).
                                        • Improved preview mode
                                        • Improved support for out-dated factory files.
                                        • Checking installation integrity before starting operation.
                                        • Bugfix: 1st channel was broken.
                                        • Bugfix: reconnect of camera upon spikes in Hard trigger avoided.

                                        Dahlia 1.4.7
                                        • 错误修复:当闲置在困难引发缓冲区溢出Mode.

                                        Dahlia 1.4.6
                                        • Bugfix: Timelapse is now able to continue if a single image failed.
                                        • Bugfix: Buffer synchronisation problem fixed for UHD 285
                                        • Bugfix: Added camera re-starting capabilites.

                                        Dahlia 1.4.5
                                        • Bugfix: Fixed Timelapse/Series/Hardtrigger-File naming

                                        Dahlia 1.4.4
                                        • Bugfix: Multithreading issues fixed.
                                        • Bugfix: Bugfixes preventing C-Link crashes.
                                        • Bugfix: Out-of memory crash for series / Averaging

                                        Dahlia 1.4.3
                                        • Bugfix: Envi Export Fixed
                                        • Bugfix: Reduce CubertRemoteGUI framerate to increase performance on UAV systems.

                                        Dahlia 1.4.2
                                        • Bugfix: Increase in Cubert Watchdog performance.
                                        • Bugfix: Incompleate images on UAV systems (“Stripes-Bug”)

                                        Dahlia 1.4.1
                                        • Bugfix for reading factory files of low-performance systems (UAV)

                                        Dahlia 1.4.0
                                        • Function-adding release.
                                        • Added Specral Radiance calibration.
                                        • Added CubertWatchdog / CubertRemoteGUI
                                        • Several Bugfixes from Cinnamon version

                                        Cinamon 1.3.x
                                        • legacy version