for processing multispectral and hyperspectral data
TNT Mips
TNTmips software is a complete geographic information system (GIS) that allows you to work with virtually any type of geospatial data, including images, terrain surfaces, and cartographic data with associated database attributes. It provides all the tools you need to view, create, edit, link, interpret, and publish any type of geospatial data.
With TNTmips, you can work with geospatial data consisting of raster, vector, CAD and TIN objects with associated relational databases. All of these forms of geodata can be stored in the unique file structure of a MicroImages project. You can also work directly with geodata in dozens of other file formats such as shapefiles and LAS LIDAR files, as well as spatial and attribute data in enterprise databases such as MySQL, Postgres / PostGIS, and Oracle.
TNTmips features
Hyperspectral Analysis
The Hyperspectral Analysis process in TNTmips provides the specialized tools you need to fully exploit the spectral range and spectral resolution of your hyperspectral images. On-the-fly reflectance calibration and an integrated spectral library make the process easy to use, yet it also includes powerful tools for data reduction, spectral search, and spectral mapping. You can extract and archive spectra from your image and import your own field or laboratory reflectance spectra. Your hyperspectral images can be imported or converted to a single compressed hyperspectral object for efficient storage, use, and processing.
Hyperspectral Analysis Highlights:

• Work with hyperspectral images from any sensor (AVIRIS, ENVI, and AISA formats);
• Store hyperspectral images in hypercube form (lossless compressed using vector quantization) for efficient display and analysis;
• Hyperspectral Explorer tool allows rapid selection of an informative 3- band set for color display;
• 3D hypercube display with choice of band to display on top and choice of optional color palette;
• On-the-fly calibration to reflectance using equal area normalization or flat field correction;
• Work with the entire image band set or choose a wavelength range subset for analysis;
• Integrated USGS spectral library with over 500 mineral spectra;
• Extract spectra from image, import your own laboratory spectra, save in custom spectral libraries;
• Search any spectral library for matching spectra;
• Integrated spectral plots from image or library spectra;
• Integrated data reduction using Principal Components analysis or Minimum Noise Fraction Transform;
• Identify spectral end-members using pixel purity index and n-Dimensional Visualizer;
• Image classification using spectral angle or self-organizing map classifiers;
• Subpixel spectral mapping using linear unmixing or matched filtering;
• Remove continuum from individual spectra or the entire image.
perClass Mira
Mira is a software interface for analyzing hyperspectral image data. Powered by a powerful machine learning engine, Mira fully automatically selects the best statistical model for given labeled samples.

PerClass Mira enables anyone to create and implement automated interpretation solutions without the need for programming or machine learning knowledge. Mira is designed for hardware and does not require powerful computer workstations.
• Easy to use, get results in minutes;
• Automatic model building using advanced machine learning;
• Intuitive and accurate labeling and annotation tools;
• High quality labeling with Active Learning guidance;
• Improved models obtained and tested on several images;
• Fine-tune interactive performance according to application requirements.
Automatic machine learning
perClass Mira is built using a powerful automatic machine learning engine that chooses the best statistical model for given tagged examples. It is built for real-world use cases that are non-linear, multi-class, and multimodal.
Easy to use interface
Within minutes, anyone can define classes and create image interpretation solutions using a logical and easy-to-use interface. No coding or special machine learning knowledge required.
HSpeQ is a revolutionary hyperspectral image analysis company built with a core mission of making hyperspectral data analysis easier.

HSpeQ offers 3 types of software: IDCube Lite, IDCube Pro, IDCube Enterprise
IDCube Lite
It all starts with a picture! IDCube Lite is designed for all users on any budget. IDCube Lite is now offered free of charge to all users. We offer you many functions: opening files of various formats from many platforms: satellites, drones; data cube processing tools; basic visualization tools; classification algorithms, etc.
IDCube Pro
IDCube Pro software for professional researchers and data analysis. IDCube Pro offers several versions to suit your needs depending on your industry.
ID CubePro comes in bio and geopackages. Both packages offer the same usability and common features, but with more industry-specific algorithms.
IDCube Enterprise
DCube Enterprise offers customized software design for your company, laboratory or government agency. An example of this software is IDCube Vision for machine vision and process control applications. You personally work with the HSpeQ team to develop an IDCube package that meets your specific requirements.
IDCube Bio
IDCube Bio offers an easy-to-use hyperspectral and RGB image analysis platform with built-in functionality to discriminate between different tissue types and biological substances.
Scientific discoveries
ID Cube Bio empowers scientists to detect key biological signatures.
Advanced diagnostics
IDCube Bio helps clinicians identify disease and monitor healing.
Operations using images
IDCube Bio can help physicians visualize the lesion and perform better surgery.
IDCube Geo
IDCube Geo has unprecedented performance in the analysis of hyperspectral images of geospatial data.
Remote visualization
IDCube Geo explores geospatial data from satellites, drones and aircraft.
Precision farming
IDCube Geo characterizes, models, classifies and maps crops and natural vegetation
Minerals and soil analysis
IDCube Geo provides soil and mineral identification.
IDCube Vision
Quality control
IDCube Vision offers customizable algorithms for identifying inconsistencies in products.
Chemical composition
IDCube Vision can assist in identifying ingredients in complex mixtures.
Food processing
IDCube Vision provides algorithms for non-destructive analysis of food quality.
LuxFlux software analyzes the hyperspectral image. It supports all sources of spectral data. LuxFlux manufactures state-of-the-art technology with German analytical algorithms for hyperspectral imaging.
LuxFlux software improves quality control of all your products throughout the development process. Optical measurement processes allow you to inspect your products without any physical contact, ensuring your product is inspected safely. It is a non-intrusive procedure that protects all products from possible damage or contamination, while ensuring a high level of productivity and accurate quality control.
Optical measurement methods for inspection
LuxFlux software solutions monitor and examine the entire spectrum of hyperspectral images. Our analytical algorithms provide a comprehensive approach to collecting data, processing results, developing experimental methods, validating systems, inspecting surfaces, and measuring dimensions. For example. length, size, ratio, scale, etc.
Luxflux software is designed to sort and organize product data by identifying and classifying its compounds in real time.
Color measurements
LuxFlux has developed technology to visualize a wide range of material properties. For example, differences in texture and color can be identified, classified and measured. Especially for quality products, it is important that the individual products look the same. To maintain value, it is especially important to produce uniform items (fabrics, prints, etc.) with exactly the same color.