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This invention is a portable cardiac monitoring technology designed for healthcare providers, athletes, and digital health companies that need continuous insight into cardiovascular performance. Using a single chest-mounted sensor, it provides non-invasive, real-time measurements of stroke volume and cardiac output during daily activities and exercises. Background:...

MemX virtualizes cluster-wide memory into a shared, low-latency resource pool for virtualized environments, enabling applications to access datasets larger than the memory capacity of a single machine. By aggregating distributed memory resources and providing transparent remote memory access, MemX allows cloud providers and data center operators to...

Inspired by biological hearing systems, this invention provides an ultrasensitive, low-noise, miniaturized optomechanical acoustic particle velocity sensor that detects weak velocity signals in confined spaces. By directly sensing acoustic particle velocity rather than pressure, it measures vector components of sound fields, enabling enhanced localization...

This technology enables autonomous vehicles to plan high-level tasks and low-level motions in a unified, adaptive framework. By continuously sharing safety and efficiency information between planning layers, vehicles can make smarter decisions in complex, unpredictable urban environments. The result is safer navigation without sacrificing operational...

This wearable ECG patch offers continuous heart monitoring while fixing common issues with current devices, such as bulky designs, short battery life, and missed data when signals are sent elsewhere for processing. By analyzing data directly on the device, it reduces power use and provides real-time heart rate, HRV, and irregular heartbeat information...

This technology enables Vision Language Models to interpret raw floor plan images and generate accurate navigation plans without requiring structured digital maps. By combining visual and text-based reasoning, it allows robots and smart devices to understand spaces directly from images. The result is flexible, scalable navigation that works wherever...

This technology lets users search surveillance video in real time using simple descriptions, solving the problem that current systems rely on sending large amounts of video or using biometric tools that are slow and raise privacy concerns. By processing data closer to where it is collected, the system delivers faster results, protects privacy, and uses...

This technology enables high-quality real-time 360-degree video communication by adapting video content to each user’s viewport. By concentrating resolution where the user is actually looking, it reduces bandwidth waste and improves visual clarity under tight latency constraints. The result is an efficient, immersive communication experience optimized...

This technology enables real-time arrhythmia detection using a wearable ECG patch, solving a key problem with current devices that must transmit large amounts of raw heart data, which quickly drains battery life. By sending only compact, encoded features instead of full waveforms, it drastically reduces data volume and power use, supporting long-term...

This technology enables precise activation of the immune system by delivering potent TLR7/8 agonists directly to diseased cells. By combining immune stimulators with antibody targeting, it enhances therapeutic impact while minimizing systemic side effects. The approach offers a safer and more effective way to treat cancer and infectious diseases by...