Human-generated responses could remotely assist autonomous vehicles decision’s during times of uncertainty.
The post ‘Air traffic control’ for driverless cars could speed up deployment appeared first on Michigan Engineering News.
Human-generated responses could remotely assist autonomous vehicles decision’s during times of uncertainty.
The post ‘Air traffic control’ for driverless cars could speed up deployment appeared first on Michigan Engineering News.
We’ve been promised all kinds of benefits from a future of connected vehicles, but flood control?
The post How connected vehicles’ wipers could help prevent flooding appeared first on Michigan Engineering News.
Surprise findings could upend the current drug discovery approach for treating one of the most dangerous hospital-borne infections.
The post A ‘decathlon’ for antibiotics puts them through more realistic testing appeared first on Michigan Engineering News.
Competition and cooperation, which regulate the strengthening and weakening of connections in the brain, can now be modeled directly.
The post Toward brain-like computing: New memristor better mimics synapses appeared first on Michigan Engineering News.
“Acoustic fields are unexpectedly richer in information than is typically thought.”
The post Mining soundwaves: Researchers unlock new data in sonar signals appeared first on Michigan Engineering News.
AI, weather forecasting and data science would all benefit from computers that store and process data in the same place. Memristors could be up to the task.
The post Memory-processing unit (MPU) could bring memristors to the masses appeared first on Michigan Engineering News.
DARPA’s initiative to reinvigorate the microelectronics industry draws deeply on Michigan Engineering expertise.
The latest from IBM and now the University of Michigan is redefining what counts as a computer at the microscale.
New software finally makes ‘memory disaggregation’ practical.
The post A breakthrough for large scale computing appeared first on Michigan Engineering News.
Electron states in a semiconductor, set and changed with pulses of light, could be the 0 and 1 of future “lightwave” electronics or room-temperature quantum computers.
The post Light could make semiconductor computers a million times faster or even go quantum appeared first on Michigan Engineering News.