|
Highly Scalable Adaptive Photonic Beamformer using “Blind” Guided Accelerated Random Search for Wireless CommunicationPrinceton Docket # 15-3056Researchers in the Department of Electrical Engineering at Princeton University have developed an adaptive photonic beamformer for use in wireless communication. Wireless communication has experienced...
Published: 3/15/2018
|
Inventor(s): John Chang, Paul Prucnal, James Meister
Keywords(s): big data, communications, cyber security, data security, Opto-Electronics/ELE ENG
Category(s): Opto-Electronics/ Electrical Engineering
|
|
Multi-beam Radio Frequency Photonic Beamformer using a Multi-Signal Slow Light Time Delay UnitPrinceton Docket # 14-3049Researchers in the Department of Electrical Engineering at Princeton University have developed a multi-beam simultaneous radio frequency (RF) photonic beamformer, focusing on the beamformer architecture, integrating a novel multi-beam...
Published: 3/15/2018
|
Inventor(s): Paul Prucnal, Matthew Chang, John Chang
Keywords(s): communications, electronics, Opto-Electronics/ELE ENG
Category(s): Opto-Electronics/ Electrical Engineering
|
|
A Method for Controlling Growth Instability in Template-Assisted Electrodeposition of Nanowires
Princeton Docket # 14-3021
The synthesis of nanowires for future electronics and energy applications requires scalability, density, reproducibility, and cost effectiveness. In this regard, template-assisted electrodeposition methods offer distinct advantages...
Published: 3/15/2018
|
Inventor(s): Howard Stone, Sangwoo Shin, Talal AL-Housseiny, Hyung Hee Cho, Beom Seok Kim
Keywords(s): battery, Opto-Electronics/ELE ENG, semiconductor
Category(s): Opto-Electronics/ Electrical Engineering
|
|
Graphene Excitable Laser
Princeton Docket # 14-2965
Researchers in the Department of Electrical Engineering at Princeton University have demonstrated a novel excitable laser employing passively Q-switching with a graphene-based saturable absorber (SA). Princeton is seeking an industry collaborator to commercialize this technology.
Graphene, a Nobel...
Published: 3/15/2018
|
Inventor(s): Bhavin Shastri, Mitchell Nahmias, Alexander Tait, Paul Prucnal
Keywords(s): defense, laser, neuroscience, Opto-Electronics/ELE ENG
Category(s): Opto-Electronics/ Electrical Engineering
|
|
A Novel Objective for EUV Microscopy and EUV Lithography
Princeton Docket # 14-2950
Researchers at Princeton Plasma Physics Laboratory (PPPL) have proposed a novel device for extreme ultraviolet (EUV) spectroscopy, EUV microscopy, and EUV lithography at wavelengths below 100 nm. Princeton is seeking an industry partner to develop and commercialize...
Published: 3/15/2018
|
Inventor(s): Manfred Bitter, Kenneth Hill, Philip Efthimion
Keywords(s): computers/software, MEMS, Opto-Electronics/ELE ENG
Category(s): Computers and Software, Opto-Electronics/ Electrical Engineering
|
|
Distributed Storage Using Similarly-Aware-Partitioning
Princeton Docket # 14-2948
Data volumes are increasing at an unprecedented rate due to the advent of large social networks, on-demand cloud-based video services, and file sharing applications. To store and access data efficiently, there has been an increased demand for distributed data stores....
Published: 3/15/2018
|
Inventor(s): Bharath Balasubramanian, Tia Lan, Mung Chiang
Keywords(s): computers/software, Opto-Electronics/ELE ENG
Category(s): Computers and Software
|
|
Enhanced 3D Display
Princeton Docket 13-2935-1
Researchers at Princeton University have developed a novel device that enhances the angular resolution available for 3D displays. Enhanced layered 3D is a low-cost method for increasing the fidelity of glasses-free 3D displays. This method allows for more variation of images to be experienced by multiple...
Published: 3/15/2018
|
Inventor(s): Jason Fleischer, Stefan Muenzel
Keywords(s): computers/software, Imaging, microscopy, Opto-Electronics/ELE ENG
Category(s): Computers and Software, Opto-Electronics/ Electrical Engineering
|
|
Novel System for 3D Position and Gesture Sensing of Human Hand
Princeton Docket 13-2923-1
Researchers at Princeton University have developed a new touchless 3D gesture and control system for electronic devices including tablets, PCs and smart phones. The system consists of a new hardware device with interfacing software. This novel system has advantages...
Published: 3/15/2018
|
Inventor(s): Yingzhe Hu, Liechao Huang, Warren RieutorT-Louis, Josue SanZ-Robinson, Naveen Verma, Sigurd Wagner, James Sturm
Keywords(s): computers/software, Opto-Electronics/ELE ENG
Category(s): Opto-Electronics/ Electrical Engineering
|
|
Improved-Resolution Light-Field Imaging
Princeton Docket # 13-2912-1
The Princeton researchers have developed a new method to improve the currently available light-field imaging. A novel feature is that this method can go beyond the resolution limit of current light-field imagers.
The resolution of the current light-field imaging system, both lateral...
Published: 3/15/2018
|
Inventor(s): Jason Fleischer, ChieN-Hung Lu, Stefan Muenzel
Keywords(s): computers/software, Imaging, microscopy, Opto-Electronics/ELE ENG, process optimization
Category(s): Computers and Software, Opto-Electronics/ Electrical Engineering
|
|
A New Material for Solar Energy Conversion Devices
Princeton Docket # 13-2905-1
To reduce the cost and improve the efficiency of current solar energy conversion devices, researchers at Princeton University have developed a novel material with improved features.
This novel material is fabricated by alloying nickel oxide (NiO) with lithium (Li) in a rocksalt...
Published: 3/15/2018
|
Inventor(s): Emily Carter, Nima Alidoust, Maytal Toroker
Keywords(s): green tech, Opto-Electronics/ELE ENG, solar cell
Category(s): Ceramics/Material Sciences, Opto-Electronics/ Electrical Engineering
|