The absence of a remote, reliable measure of rigidity, bradykinesia and tremor is a major limitation for telemedicine and multicenter clinical trials in Parkinson's disease (PD).
The wireless spectrum is increasingly fragmented due to the growing proliferation of unlicensed wireless devices and piecemeal licensed spectrum allocations.
Wireless spectrum is increasingly fragmented due to the growing proliferation of unlicensed wireless devices and piecemeal licensed spectrum allocations.
Engineers in Prof. Sachin Katti's laboratory have developed a 3 X 3 in-band full duplex MIMO radio, that can simultaneously transmit and receive on the same channel using standard WiFi 802.11n PHY for 20 Mhz bandwidth.
Engineers in Prof. Sachin Katti's laboratory have developed a full duplex wireless system designed to double throughput by simultaneously transmitting and receiving signal on a standard single inband antenna.
Stanford researchers have invented techniques to adaptively tune the operation of a wireless full-duplex node. To enable full-duplex operation, the receiver circuit needs to be able to cancel the transmitter's signal in order to receive data from other nodes.
Stanford researchers have developed a fast and flexible platform for building human brain organoids that mimic the complexity of the brain's cellular makeup. This breakthrough enables faster research and better disease modeling for neurological conditions.
Stanford researchers have developed a first-in-class, non-hormonal male contraceptive that works by targeting a protein found only in developing sperm cells.
Stanford researchers have developed an oral formula and method to reduce the risk of developing food allergies. This patented formula can reduce the risk of food allergy in different age groups when given as part of a normal daily diet.
Researchers at Stanford have developed a clinically applicable method of bone marrow conditioning for stem cell transplantation or treatment of hematologic malignancies.
Stanford researchers have developed a modular system of Synthetic cytokine receptors (SCRs), which are customizable receptors that mimic cytokine signals to precisely control immune cell behavior without the need for external cytokines.