Nikon’s Flagship NIS-Elements Package
Optimized for advanced research applications, Nikon’s flagship software package features fully automated image acquisition, advanced device control and powerful analysis and visualization tools.
주요 특징들
Acquire
- From Single to Multi-Dimensional imaging
- Intuitive display of multi-dimensional datasets with multiple viewing options (e.g. slice, volume, time, spectral, binary, etc.), easy data management, and export-ready
- Go Beyond Image Capture
- Photo-Stimulation
- Perfusion
- Realtime measurements (e.g. Ca2+, FRET) during image acquisition
- Image without Constraints or Limitations with JOBS
- Custom-build your acquisition workflow with graphical programming
- Intelligent Acquisition with JOBS and General Analysis (GA)
- Let the results dictate the acquisition parameters with conditional workflows
- Only acquire meaningful data
- Reduce time spent on data mining
- Maximized Device Performance
- NIS-Elements is designed to optimize the speed at which all components can perform
- Maximize device usage through hardware triggering
- Enables fastest possible image capture times for imaging and tracking fast biological events
- Eliminates unnecessary light exposure, extending the health of the sample for long-term time lapses
- Largest 3rd party integrator in the industry
- Easily integrate and control non-Nikon devices for fully customized experiments
- Quickly adapt to changing research needs by utilizing 3rd party devices
Quantitate
- From simple manual measurements to automatic data collection of hundreds of parameters
- Full suite of binary and image processing tools in General Analysis (GA)
- Multi-channel binary software assay toolbox
- 2D and 3D Tracking and Measurement
- Realtime analysis of live cell dynamics during acquisition
- Intensity Based Measurements
- Morphological Based Measurements
- Object Tracking
Process and Visualize
- Easily view tiled/stitched large images
- Unique Extended Depth of Focus (EDF) view for creating beautiful, high-contrast, in-focus 2D projection images from 3D data
- Advanced 3D and 2D deconvolution algorithms for extending resolution
- Unique visualization options such as XYT view (3D kymograph)