Available Technologies by Category
mmWave Reconfigurable and Miniature On-Chip Filter Based on Vanadium Dioxide
  • VO2-based combline electromagnetic filter dynamically modulates millimeter wave 5G/6G passband frequencies above 30 GHz using phase-change properties to adjust transmission line lengths with heat.
  • Compact on-chip technology streamlines control, accommodates complex shapes and multiple bands, and minimizes insertion loss, addressing spatial, acoustic wave filtering, and efficiency challenges in mmWave arrays.
  • Designed for 5G and 6G networks, it enables flexible band switching above 30 GHz, addressing key technical challenges and supporting high-performance telecommunications demands.
     
9470
Dominance-Based Wireless Communication and Associated Solutions
  • A new method of wireless communication has lessened  the need for multiple channels and time durations, by creating a system where many transmitters can simultaneously transmit and increase network throughput.
  • This new system yields higher spatial reuse, reduces the latency of data reception, and improves loss performance and can be used in most wireless network scenarios.
  • The dominance based technique uses collection of information coding, and other supporting mechanisms in order to prevent the waste of communication resources.
4713
High-Accuracy, Low-Cost, Low-Power Wireless Tracking Tags
  • Low-cost, ultra-low power wireless tag for real-time asset tracking
  • Passive wireless tag costs less than $1 to manufacture and can operate for several years with maintenance-free operation
  • Compatible with off-the-shelf devices, making it ideal for efficient inventory control in multiple industries
8943
Distributed Position, Navigation, and Timing (PNT) Chain Significantly Improves Drone Navigation When GPS Fails
  • The robust Distributed PNT Chain enables a swarm of drones or other autonomous platforms to effectively navigate when they are denied GPS access. 
  • The system shares and processes all available sensor data to significantly improve the robustness and reliability of drone teams.
  • The highly modular system is interoperable with preexisting GPS INSs and supports variable and evolving platform geometries.
9046
Quantum Tunneling Radio Positioning System Achieves Higher Levels of Accuracy and Longer Range for Next-Generation Wireless Networks
  • This radiolocation system uses quantum tunneling tags (QTT) capable of operating in non-line-of-sight conditions to achieve longer range communications in outdoor and indoor applications. 
  • The use of QTTs, paired with a frequency hopping reader, results in positioning accuracy not achievable with standard methods.
  • QTTs are inexpensive and operate under low power requirements to offer an affordable orientation system with long battery life.
8535
D-Band Vector Modulator Phase Shifter (VMPS) Achieves Higher Bandwidth
  • Uses tapered delay lines at the input to generate differential quadrature signals that enable wider bandwidth and result in higher speed communications
  • Reaches a moderate gain of 1.5 decibels at a center frequency of 128 GHz, while simultaneously achieving higher bandwidth of 35 GHz than any other mmWave VMPS in silicon
  • Has low power consumption, using only 20.3 mW of average DC power from a 1.5 V supply
9180
Custom-Fit Reusable Respiratory Protective Device (RPD) with Continuous Fit Monitoring Improves Comfort and Protection
  • Vastly improves comfort and protection while bringing peace of mind to wearers through a custom fit and continuous monitoring
  • Reduces pressure injuries caused by extended RPD use through both a customized fit and alerts to the wearer when the RPD should be adjusted or removed
  • Minimizes exposures to workplace hazards by immediately detecting leakage during RPD use and alerting the wearer to adjust the device
8876, 9089, 9090, 9091
Parametric Resonance Approach for Efficient, Versatile Acoustic Power Transfer for Implantable/Wearable Devices, Sensing, and Communications
  • New class of transducers utilizes parametric resonance to convert acoustic energy from an ultrasonic source to a sustained electrical signal. 
  • Technology powers implantable biomedical devices, small wearable sensors, and other wireless charging applications.
  • Simple yet robust generation of stable electromechanical frequency combs is also possible in both air and liquid environments using a capacitive micro-resonator array.
7635, 9075
Artificial Neural Network (ANN) with Unique Input Design that Significantly Reduces Computational Costs of Complex Engineering Systems
  • Neural network’s novel input can utilize first-order schemes and local patches and allows for discontinuities to be reflected accurately and with greater resolution than existing products.
  • This adaptable ANN can be adopted by commercial and scientific research as a stand-alone solution or in conjunction with existing software. 
  • Lower costs for running complex and repetitive computations can be achieved by implementing this neural network with an input system that processes low-cost numerical solution patches arising from two or more converging solutions.
8963
Biologically Inspired Connected Advanced Driver Assistance System
  • Cost-effective: Leverages existing vehicle infrastructure (e.g., sensors, lights) along with an affordable software upgrade to provide enhanced collision avoidance capabilities, typically for less than $500
  • Safety-enhancing: Designed to help prevent up to 94% of automotive crashes by providing reduced lag time and enabling faster driver reaction rates 
  • Convenient: Aims to optimize vehicle travel speeds and reduce traffic congestion and travel times
8918
Wearable Health Monitoring Device Improves Data Quality and Accuracy
  • High performance: Captures real-time, real-world data of multiple physiological signals with a significant reduction in MA interference
  • Chest-mounted: Provides more accurate ECG, heart rate, respiratory rate, and activity detection than existing wrist-worn commercial monitors
  • Comfortable: Adheres securely and discretely to the skin using a breathable soft membrane for continuous conformal contact, eliminating excessive sweating and skin irritation
8691
Real-Time Mobilization of Computer Software Applications
  • Comprehensive: Overcomes speed, traffic, and interface limitations of basic remote computing
  • Resourceful: Allows for seamless function without a high data usage burden
  • Efficient: Applies unique transformation services to accelerate and enhance the user’s mobilized application experiences
5798
AwareSite Proximity Safety Sensing System for Construction and Other Work Sites
  • Improved work safety and efficiency: Not only are accidents prevented when workers and equipment operators are alerted that they are crossing set safety boundaries, their proximity and movement data are also stored in the cloud and can be used to analyze work patterns that could improve safety, work process efficiency, and more.
  • Low-cost and flexible hardware: The system uses inexpensive custom PPU devices but can also be paired with workers’ personal smartphones for connecting to the system.
  • User friendly and reliable: System setup and operation is simple. Beacons use Bluetooth® low-energy technology and can last more than one year without changing batteries.
7970, 7971
Rapid Mobilization of Essential Enterprise Applications
  • Rapid: Significantly reduces time needed to mobilize an enterprise application as compared to conventional mobilization solutions
  • Cost-efficient: Leverages a cloud-based, codeless platform that saves on both time and budget
  • Flexible: Demonstrates potential to efficiently provide mobile functionality for a wide variety of applications necessary for business operations
5583
Super Aggregation: Multihoming for Wireless Devices
  • Performance-improving: Improves the aggregate performance of multiple heterogeneous wireless interfaces used simultaneously compared to the performance each could achieve on its own  
  • Proven: Indicates TCP acceleration achieved in wireless data networks when tested on two mobile platforms, including a laptop computer and an Android mobile phone
  • Impactful: Addresses the performance improvement needs of ubiquitous, widely used mobile technologies
4712
Fully Passive, Long-Range Radio-Frequency Identification (RFID) via 5G
  • Large coverage: Provides a unique combination of large angular coverage and turn-on sensitivity in both planar and bent configurations
  • Long range: Demonstrates the potential for RFIDs with practical reading ranges over 1.8 km
  • Scalable: Scales in size to a precise degree, enabling selection of the optimal tradeoff between size and harvested power/reading range
8141, 8439
Purely Passive Radio-Frequency Identification
  • Powerful: Projected to support energy harvesting sensors at distances over 100 meters from readers and/or radio transmission sources
  • Efficient: Enables conversion of RF energy at higher efficiency and at higher output voltages than current electronic energy harvesting methods
  • Widely applicable: May advance RFID applications in a wide range of fields including computing, sensing, and communication
7194
Flight Control System for Miniature Aerial Robots
  • Lightweight: Features a core electronics board that weighs less than half a gram
  • Flexible: Contains a core electronics board that can be conveniently reprogrammed for expanded functionality
  • Compact: Offers a small form factor with an area of about 2 square centimeters
8591
A Low-Loss Broadband Quadrature Signal Generation Technique for Highly Balanced Signals
  • Superior: Provides lower loss, wider bandwidth, better mismatch reduction, zero power consumption, and more balanced quadrature signals compared with other currently available technologies
  • Validated: Achieves an average IRR of 37.5 dB across 40-76 GHz and 33.5 dB across 40-102 GHz, with each stage of the network enhancing IRR by approximately 8 dB in verification of proof-of-concept image-reject mixers
  • Convenient: Eliminates the need for additional calibration and tuning and has reduced sensitivity to fabrication process variations
7888
A First-of-its-Kind, Ultra-Low Voltage Single-Element Amplified Backscatter System
  • Streamlined: Uses a single element—one tunnel diode with few passive components—to achieve dual functionality of simultaneous oscillation and reflection-amplification
  • Efficient: Combines the features of conventional RFIDs and tunnel diode-based reflection amplifiers while using an extremely low biasing voltage of only 88 mV, consuming only 20 μW, and offering a reflection gain of 48 dB
  • Long range: Provides the highest observed gain in the literature for a given input power
8375