Optimized Size, Weight, and Power (SWaP) with Intelligent Processing
This ultra low power, self-sufficient, and advanced smart sensor, designed with optimized Size, Weight, and Power and embedded intelligent algorithms, builds upon an advanced rad-hard microcontroller to accurately measure, detect, log, and report events related to the health, status, or environment of monitored systems. Low power operation (3.3v, 487.94 microA in active mode, 57.02 microA in sleep mode) enables event registration and logging data for extended periods of time to later be downloaded by a host system or mobile device.
Standardized & Advanced Embedded Features
A custom subset of embedded functions from the IEEE 1451 Standard provides a communication protocol, fault detection awareness by fast notifications, and Transducer Electronic Data Sheet (TEDS) management. Specifications of each unit as well as a unique identification are provided within TEDS. Intelligent health monitoring features such as diagnostics, calibration support, sensor self-diagnosis, among others are all provided within a common software structure. An embedded neural network provides classification and pattern recognition capability.
Customizable and Flexible Smart Sensor
The AISTS' modular design is based on a Main Board, Satellite-Board with customizable transducers, Expansion Bus (with I2C, UART, IrDA, SPI, GPIO, and ADC channels), and a Rechargeable Battery. The Satellite Board's state-of-the-art vibration sensing suite has a high performance analog 3-axis accelerometer as well as a digital 3-axis accelerometer with features such as impact detection (requires just 144 microW) and activity monitoring. Even if in sleep mode, monitoring is possible since the Main Board's ultra-low power, stand-alone temperature sensor is able to recognize temperature change events, while the digital accelerometer monitors events due to impact or shock.
Operation as a Non-Intrusive and Standalone Smart Sensor with Debriefing Capability
A Hand Held Reader allows sending commands to and downloading health data logs from the AISTS. RS-232, SPI, and ZigBee are communication interfaces between the Reader and the AISTS. However, for applications that require through wall energy and data transfer, an ultrasound system is used. Communication modules can be customized to many devices such as the ruggedized Trimble Nomad®.
Autonomous Intelligent Sensor for Tracking Systems (AISTS)
The AISTS is a comprehensive smart sensor that was built to measure, upload, and download sensor data from areas that are not traditionally accessible due to metal enclosures or barriers. This technology utilizes advanced sensing schemes that are customizable for applications that have a need to monitor, analyze, or maintain assets with such constraints. Examples include measuring data inside sealed metal containers such as pressure vessels (tanks), pipes, missiles, and more. The non-intrusive AISTS has through-metal data and energy transferal capability based on ultrasound technology, but it can also be easily setup with conventional powering and communication electronics. The device can last between charges for 1 month (active) up to 1 year (sleep) with a miniature 450 mAh rechargeable battery.
Applications
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Structural Health Monitoring
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Corrosion Monitoring
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Vibration Analysis
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Condition Based Maintenance
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Container Internal Monitoring
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Weapon Systems Health Monitoring
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The AISTS was originally developed for the U.S. Navy in a joint effort with Rensselaer Polytechnic Institute (RPI). This Product is Subject to Export Restrictions from the International Traffic and Arms Regulations (ITAR)