Average Ratings 0 Ratings
Average Ratings 0 Ratings
Description
The Mission Management Platform (MMP) is a versatile software suite designed for installation in a modular MSCCS configuration, with no restrictions on the number of control working positions (CWP) it can accommodate. Developed by Nurjana, the NT MMP serves as a framework that also allows for flexible installation in a modular MSCCS setup, maintaining the same lack of limitations on control working positions. The comprehensive features of the MMP software for MSCCS are organized into two main categories of Software Modules, each consisting of various NT standard components, such as libraries and building blocks: Mission Setup and Analysis Applications. Within this framework, the Scenario Definition and Pre-Mission Control Module enables users to establish a Range Abstraction Layer along with the environmental data structures necessary to represent multiple entities involved in a mission, such as geographical terrain, sensors, projectiles, and environmental factors. This Range Abstraction Layer plays a crucial role in synthesizing accurate mission scenarios.
Description
Electromagnetic sensors are composed of two main components: a "front-end" that both generates and detects electromagnetic waves via a subsystem known as the Receiver/Exciter (REX), and a "back-end" responsible for signal and data processing, which is generally carried out through software. Each of these subsystems must be developed independently before they can be seamlessly integrated. The process of creating the complete sensor becomes increasingly complex and time-consuming due to unforeseen challenges that arise during integration testing. This complexity largely stems from the interdependencies between the subsystems that are not easily testable during their individual development phases. As a result, any necessary software updates, configuration adjustments, waveform modifications, and technology upgrades can incur significantly higher costs since they often require on-site verification with the actual front-end hardware. To mitigate these issues, the Virtual Receiver/Exciter (VREX) utilizes a simulated front-end, thus streamlining the testing and integration process. By employing a virtual model, developers can identify and address potential integration issues much earlier in the development cycle.
API Access
Has API
API Access
Has API
Integrations
No details available.
Integrations
No details available.
Pricing Details
No price information available.
Free Trial
Free Version
Pricing Details
No price information available.
Free Trial
Free Version
Deployment
Web-Based
On-Premises
iPhone App
iPad App
Android App
Windows
Mac
Linux
Chromebook
Deployment
Web-Based
On-Premises
iPhone App
iPad App
Android App
Windows
Mac
Linux
Chromebook
Customer Support
Business Hours
Live Rep (24/7)
Online Support
Customer Support
Business Hours
Live Rep (24/7)
Online Support
Types of Training
Training Docs
Webinars
Live Training (Online)
In Person
Types of Training
Training Docs
Webinars
Live Training (Online)
In Person
Vendor Details
Company Name
Nurjana Technologies
Country
Italy
Website
www.nurjanatech.com
Vendor Details
Company Name
FishEye
Website
fisheye.net/products/vrex/
Product Features
Simulation
1D Simulation
3D Modeling
3D Simulation
Agent-Based Modeling
Continuous Modeling
Design Analysis
Direct Manipulation
Discrete Event Modeling
Dynamic Modeling
Graphical Modeling
Industry Specific Database
Monte Carlo Simulation
Motion Modeling
Presentation Tools
Stochastic Modeling
Turbulence Modeling
Product Features
Simulation
1D Simulation
3D Modeling
3D Simulation
Agent-Based Modeling
Continuous Modeling
Design Analysis
Direct Manipulation
Discrete Event Modeling
Dynamic Modeling
Graphical Modeling
Industry Specific Database
Monte Carlo Simulation
Motion Modeling
Presentation Tools
Stochastic Modeling
Turbulence Modeling