Available Technologies by Category
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
Using Smart Macros to Optimize User Actions on Smartphones
  • Improves user experience: Provides near-desktop level experience for the mobile phone environment
  • Easy to use: Reduces user burden by presenting programmable macros in a simple and user-friendly manner
  • Causes minimum overhead: Does not contain any process that degrades the remote desktop performance because of high requirements for the central processing unit (CPU) or memory
5501
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
Smart Webcam Shield Protects Users from Unknown External Digital Intrusion
  • Secure: Offers visual obstruction of the webcam even when remote software attempts to record without triggering the computer’s LED indicator  
  • Reliable: Automates the webcam safeguard for ongoing protection without reliance on user engagement
  • Flexible: Enables two different actuators via the same sensor
8610
Adaptive Broadband Impedance Matching in Ultrasound Front-End Electronics
  • High performance: Improves power transfer and acoustic reflectivity
  • Flexible: Enables multimodal and tunable operation of CMUTs
  • Efficient: Provides optimal matching for co-design of CMUT electronics
8342
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
IMUTube: Converting Videos of Human Activity into Virtual IMU Data Streams
  • Automated: Automates wearable sensor data collection, which can in turn be used to train HAR models by simply giving them access to large-scale video repositories
  • Accurate: Demonstrated recognition accuracy in some cases comparable to models trained only with non-virtual (“real”) sensor data in benchmark studies
  • Superior: Outperformed models using real sensor data alone by adding only small amounts of real sensor data to the virtual sensor dataset in benchmark studies
8538
A First-of-its-Kind Power Amplifier-Based Network for Efficient Broadband Operations
  • Unmatched: Provides first-of-its-kind broadband performance with 26-41 GHz instantaneous 1 dB power gain bandwidth and 25.8-41.3 GHz instantaneous P1dB output power bandwidth—both of which far out-perform currently available techniques
  • Simplified: Sidesteps the need for any tuning or reconfiguration while still providing best-in-class broadband performance
  • Efficient: Significantly improves power amplifier back-off and average efficiency with two efficiency peaks and deep power back-off (12 dB), and maintains better than 38% power-added efficiency at P1dB
8158, 8159
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
Improve the Reliability of Quantum Computers by Mitigating Measurements Errors
  • Increased reliability by 2-3x: Some current quantum computers have average measurement error rates ranging from 6%–8%, with worst case rates ranging from 25%–30%. Georgia Tech’s methods improve measurement fidelity by 2–3x.  
  • Improved usability: Implementation of the EDM uses the top-four mappings produced by the underlying mapping policy.
  • Proactive: Using AIM to predict the state that is being measured and the error rate profile of the machine, the predicted state can be proactively mapped to the strongest state using a specifically designed inversion string.
8207, 8208
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
Heat Dissipation for Microelectronic Systems via Capillary Trap
  • Effective: Dissipates large heat fluxes via 3D heat spreading and evaporative cooling that could approach kW/cm2 and beyond while keeping the surface temperature under 90oC
  • Preventive: Mitigates coolant dry-out at the critical heat flux levels that result in a rapid and large temperature rise and thus cause device burn-out
  • Efficient: Exploits high cooling capabilities associated with phase-change heat transfer through evaporation
6272
Enabling Multi-Beam, High-Capacity Massive MIMO for 5G Communications and More
  • State-of-the-art: Is the first Rx-array design of its kind, autonomously achieving modulated blocker suppression and desired signal beamforming simultaneously without the need for a digital beamforming aid  
  • Robust: Enables multi-beam high-capacity massive MIMO to address the demands of both commercial and defense applications
  • Scalable: Employs ASFs that achieve 4-element spatial filters with sharpened selectivity that can be extended to larger array sizes of thousands of elements and cancellation of any number of interference signals
8120
Enabling Privacy-Preserving Search Over Fuzzy Databases
  • Privacy-preserving: Improves the security of biometric-based surveillance, identification, or searches for individuals using their biometric data over private databases
  • Timely: Addresses the requirements of recent and emerging privacy protection regulations and policies
  • Practical: Fills a gap in privacy-preserving search technologies, which currently do not accommodate searching of fuzzy data such as biometrics
8506
Virtual Sensing Integrated for Predictive Reliability (VIPR)
  • Advanced: Acquires system data via virtual sensing, without the need for physical sensors in all desired locations
  • Cost-reducing: Aims to reduce maintenance and planning costs for solid rocket motors and potentially other vehicle propulsion systems
  • Predictive: Provides useful, repeatable, extensive data sets to predict rocket performance and enable proactive plans for propulsion system maintenance, upgrades, and replacements, potentially reducing downtime and failures
8555
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
ScheduleNet: Advancing Multi-Robot Coordination
  • Superior performance: Outperforms approximate human-robot scheduling methods in both schedule optimization and total number of feasible schedules
  • Robust: Can autonomously learn scalable scheduling heuristics on multiple application domains and attains an order-of-magnitude improved computation speed compared with exact methods
  • Novel: Is the first method to leverage graph neural networks involving simple temporal network (STN)-based scheduling problems with spatial constraints
8515, 8517
Privacy-Preserving Remote Biometric Authentication
  • Protective: Designed to eliminate privacy concerns associated with databases of people’s faces
  • Flexible: Supports various biometrics, including face, voice, iris, fingerprint, and gait
  • Remote authentication: Eliminates the need to always possess the enrollment device
7885
‘Intelligent’ Power Amplifier Architecture
  • AI-assisted: Provides the PA self-reconfigurability and robust adaptive operation over environmental changes
  • High performance: Features low latency and fast response capabilities required for many fifth-generation (5G) applications
  • Improved learning efficiency: Incorporates into control algorithms multiple RL frameworks, including CAB, multi-armed bandit, contextual bandit, and actor-critic with experience replay
8377
Contextually Aware, Machine Learning–Based Smart Notification System
  • Increases user efficiency
  • Increases user productivity
  • Reduces user stress
8034