Spectrider is the first 3D high resolution real-time spectrometer for educational and scientific purposes where analysis of analog signals is required.
These are the hotkeys that can be used to easily operate the functions of Spectrider (in help screen hot keys are highlighted by underscores):
· ‘F’: Change number of points in Fast Furrier Transformation (FFT)
· ‘D’: Change dynamic range for spectrum visualization
· ‘A’ or +/- keys of numeric pad: Change factor for waveform amplification
· ‘W’: Change weighting function for waveform
· ‘M’: Switch color or mono mode for spectrum visualization
· ‘V’: Switch between 3-dimentional or 2-dimentional (colored) modes for spectrum visualization
· ‘R’: Change sampling rate
· ‘N’: Change minimum frequency of spectrum analysis
· ‘X’: Change maximum frequency of spectrum analysis
· : Adjust layout of spectrum, waveform and spectrum cut
· F1: Switch On/Off screen with contact info
· F2: Switch On/Off help screen together with current parameters
· F3: Switch On/Off map of spectrum colors
· F4: Switch On/Off grid together with labels
· ESCAPE or CONTROL+BREAK: close application
You can additionally press CONTROL key together with a hot key to decrement correspondent parameter, by default increment of parameter by pre-fixed step will be done.
Download 🆗 DOWNLOAD (Mirror #1)
Download 🆗 DOWNLOAD (Mirror #1)
Spectrider Crack+ License Key Full
Spectrider Crack is the first 3D high resolution real-time spectrometer for educational and scientific purposes where analysis of analog signals is required. It is used for educational purposes to teach maximum time Fourier transformation (FT), maximized of frequency resolution FFTs and to do a visualisation of arbitrary signal that can be recorded via soundcard. It is used for scientific purposes to make computer spectroscopy experiments with signal demodulation. It can be used in schools as a tool to teach math with the help of real-time video-spectra and with the help of real-time graphic visualisation of data (spectrum, waveform, histogram). With the help of the internet Spectrider can be used for data acquisition of microcomputers via www.spectrider.info.
VANCIO V11
1- The first version of VANCIO with a lot of new improvements:
· It has a new interface and redesigned GUI.
· It has a new motor controller – the easy way to operate motors.
· It has new motor driver, new stepper controller, different motors.
· It has the “multi-stage” controller, improved running speed, better efficiency.
· Some controller can be upgraded.
· There is new programming language (using C and C++) to interact with VANCIO.
VANCIO V11.1
Changes:
· The new scheme of the front panel is more compact and has a new design.
· It has new color scheme and new default interface style.
VANCIO V11.5
Changelog:
1-
· The new scheme of the front panel is more compact and has a new design.
· It has new color scheme and new default interface style.
· The V11.5 uses VANCIO version 1.1 instead of 1.0.
2-
· It has the new motor controller – the easy way to operate motors.
· It has new motor driver, new stepper controller, different motors.
· There is new programming language (using C and C++) to interact with VANCIO.
3-
· It has better resistance to noise in the ground.
· It has new display driver for the 14-pin LCD.
· It has new audio API that can be used to communicate between VANCIO and audio system.
· It can be used with ALSA, OSS or Jack.
· There is new
Spectrider Download [Mac/Win]
Spectrider is a noncommercial and open-source software (GNU General Public License) for 3D real-time visualization, manipulation and analysis of the data in the form of digital signals.
Objective:
Following main tasks are covered:
• Import data from different signal sources
• Data visualization, analysis and transformation
• Producing animation of data
• X-Y-Z (curve, surface, cut) editing, editing and processing with interactive spectrograph (a tool for visualization and analysis of the signals)
• Real-time analysis with FFT
• Audio analysis (FFT and Audio spectrum)
• Fast 3D processing of parameters
Spectrider can be configured to act as an audio analyzer, windowless spectrum analyzer, audio spectrum analyzer, spectrum analyzer, fast waveform analyzer, data acquisition interface or real-time spectrum analyzer.
Main features:
· Real-time spectrum analysis
· Multi-window live spectrum analysis
· Real-time filter
· Color and monochrome signal presentation
· Waveform representation with waveform editing tools
· Three-dimensional (X-Y-Z) color map editing and processing
· Attribute management
· 3D color map presentation
· 3D waveform and spectrum surface rendering
· Real-time 3D manipulation (curve, surface, cut) with line editing, editing and cutting in real time
· Interactive spectrum visualization
Spectrider based on OpenGL technology on OpenGL4+ platform. It is highly portable and runs on MS Windows, Linux, Mac OS X and other systems.
Comparison of time-consuming computations with SP/SPL on this:
And for more info:
Also i have created other open source software:
Motion Controlled Reputation System
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Spectrider With Key
Spectrider is a fast, simple, most advanced and cheap 3D real-time visualization and analysis of signals for education and scientific purposes. It can be easily operated by hot keys in help screen with mouse clicking on the screen, it also has additional features that can be reached by hot keys described above.
The application creates huge files with very fast speed, in case of practical application on a compact PC you’ll not use more than 10 MB of space, but in case of practical on a big PC will use several GB of space. As the work of each analyzed signal is transformed to memory instantly, you can view long time series with low speed of PC.
Free mode (like Morse code chaper for learning signals) has very low speed, but during the analysis of the large signal data low speed is not a problem.
The application works for different kind of signals including: audio, DTMF, radar, ECG, piezoelectric, enzymatic, thermocouple, fuel injection, etc.
Furrier transformation analysis is a powerful technique for extraction of information from any type of analog signal. FFT has the ability to distinguish the faintest of signals from noise and visualizes signals in the low-frequency domain. It does not require much data and is robust against noise and frequency interference.
FFT for signals with low frequency is the method of choice for real-time visualization and analysis of analog signals. The transform can use low-cost hardware and can be also made fast by modifying software implementation of the transform.
FFT displays the signal in the frequency domain and has the ability to analyze the presence and quality of frequency components and shapes of these components. The quality of the frequency is obtained from the analysis of the amplitudes of the low frequency components of the spectrum. To be easily recognized these low frequency components are represented by different colors in the spectrum and separated from other frequencies by a colored grid.
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[message=Another hot key to operate the functions of Spectrider :
· ‘F’: Change number of points in Fast Furrier Transformation (FFT)
· ‘D’: Change dynamic range for spectrum visualization
· ‘A’ or +/- keys of numeric pad: Change factor for waveform amplification
· ‘W’: Change weighting function for waveform
· ‘M’: Switch color or mono mode for spectrum visualization
· ‘V’: Switch between 3-dimentional or 2-dimentional
What’s New In Spectrider?
Spectrider is a multi-platform 3D high resolution real-time spectrum analyzer application.
Open source and cross-platform, Spectrider can be used for acquiring and analyzing optical, RF or ultrasound/EEG data.
It implements optical analogue signals in forms of fast alternating current, low frequency and transient signals generated by sources based on SMA, LHP, LSA, LME24G and LME24H connector.
There are also no-tube sources such as SMA, LSA, LHP and LME24G.
Data acquisition
The system supports a wide range of optical, RF or AC signals in the following forms:
– analog signals from SMA1, SMA2, SMA3, TOSA, LHP, LSA and LME24G and LME24H.
– digital signals from SMA1, SMA2, SMA3, TOSA, LHP, LSA, LME24G and LME24H.
– voltage signals from LT, RT8937, RT8917, RT8926, RT8924, RT8926, RT8924, RT8933, RT8933, RT8946, RT8943, VME6 and VME24
• analog signals from SMA1, SMA2, SMA3, TOSA, LHP, LSA and LME24G and LME24H.
• digital signals from SMA1, SMA2, SMA3, TOSA, LHP, LSA, LME24G and LME24H.
• voltage signals from LT, RT8937, RT8917, RT8926, RT8924, RT8926, RT8924, RT8933, RT8933, RT8946, RT8943, VME6 and VME24
Before connecting an analogue signal you should consult the information enclosed in the device’s manual or contact its technical support.
Because optical signals might be introduced in an interference pattern, there might be a need to reduce or switch off the light source, in order to get an undistorted analog signal.
Data visualization
Spectrider has a powerful visualization of optical, radio and analog signals which offers the following features:
Optical:
· multimode/singlemode and empty modes (real-time with hybrid arb code, overlaid
System Requirements For Spectrider:
Windows:
Windows 7/8/10
Mac OS X:
macOS Sierra or later
Linux:
Ubuntu 16.04 or later
a GPU that supports at least 4K resolution
Input Devices:
mouse, gamepad
GPU:
The demo will not run on a mobile device.
Keyboard & mouse input works, but the controls are not optimized for touch screen.
We’ve included a few buttons on the control panel to allow you to switch to alternate control schemes
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