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Keep the Stress Away with SoDA: Stress Detection and Alleviation System for Continuous and User-transparent Stress Monitoring and Mitigation Docket # 17-3308Researchers at Princeton University in the Department of Electrical Engineering have developed a new system to detect and alleviate stress in a continuous, adaptive, and user-transparent...
Published: 1/29/2018
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Inventor(s): Ayten Akmandor, Niraj Jha
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering
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Princeton Docket # 17-3301Measuring the flowrate of extremely high-temperature or chemically aggressive fluids is a challenge faced by a variety of different industrial processes (e.g. metal casting, nuclear power, concentrated solar power, chemical production, etc.). Rotating Lorentz-force flowmeters (RLFFs) are non-contact devices that can operate...
Published: 2/2/2018
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Inventor(s): Michael Hvasta
Keywords(s):
Category(s): Chemistry, Ceramics/Material Sciences, Mechanical, Opto-Electronics/ Electrical Engineering
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A multi-cone x-ray imaging Bragg crystal spectrometer Princeton Docket # 16-3250-1Researchers at Princeton Plasma Physics Laboratory, Princeton University have designed a new multi-cone x-ray imaging Bragg crystal spectrometer for the spectroscopy of small (point-like) x-ray sources, which in contrast to Hall’s, currently used standard single-cone...
Published: 3/8/2018
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Inventor(s): Manfred Bitter, Kenneth Hill, Philip Efthimion, Luis DelgadO-Aparicio, Novimir Pablant, Lan Gao
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering
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Princeton Docket # 16-3248Researchers in the Department of Electrical Engineering at Princeton University have invented the first solid-state intermediate band organic solar cell device. This device architecture, made from commercially available materials, enables increased solar cell efficiency by converting low energy solar photons into electrical...
Published: 2/6/2018
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Inventor(s): Barry Rand, Yunhui Lin
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering, Ceramics/Material Sciences
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Princeton Docket # 16-3243Researchers in the Department of Electrical Engineering at Princeton University have developed a method for controlling the microstructure of hybrid organic-inorganic perovskite films via a straightforward, low temperature, and scalable process. The fine control and tunability of film properties leads to improved efficiencies...
Published: 1/29/2018
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Inventor(s): Barry Rand, Ross Kerner, Zhengguo Xiao
Keywords(s):
Category(s): Ceramics/Material Sciences, Opto-Electronics/ Electrical Engineering
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Princeton Docket # 16-3222-1Researchers at Princeton in the Department of Electrical Engineering have invented a new computational technique for the design of a novel class of ultra-compact micro/nano-scale devices which can be used for high-efficiency nonlinear wavelength conversion in multi-mode cavities.High-efficiency coherent wavelength conversion...
Published: 1/29/2018
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Inventor(s): Alejandro Rodriguez, Zin Lin, Steven Johnson, Marko Loncar, Xiangdong Liang
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering
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Princeton Docket # 16-3221-1Researchers at Princeton in the Department of Electrical Engineering have designed a unique Oblivious RAM (Root ORAM) that provides an application- specific low bandwidth with rigorous privacy guarantees of a differentially private ORAMs with tunable privacy-utility trade-off to achieve private access of data.Use of current...
Published: 1/29/2018
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Inventor(s): Sameer Wagh, Paul Cuff, Prateek Mittal
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering
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Initial Synchronization System for the LTE Sector Search Process Princeton Docket # 16-3216-1Researchers at Princeton in the Department of Electrical Engineering have designed a novel initial synchronization system for the LTE sector search process to provide better coverage, lower outage probability, rapid initial...
Published: 1/29/2018
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Inventor(s): JiA-Chin Lin, YU-Ting Sun, H. Vincent Poor
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering
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Princeton Docket # 16-3215-1Researchers in the Department of Electrical Engineering at Princeton University have developed a new process for channel estimation in modern wireless multi-relay cellular networks to enable increased signal quality and lower outage probability without the need for infrastructure upgrades or modifications. In general, modern...
Published: 1/29/2018
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Inventor(s): JiA-Chin Lin, H. Vincent Poor, KaO-Peng Chou
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering
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Princeton Docket # 16-3203-1Researchers at Princeton University, PRISM Imaging and Analysis Center, have developed a new in-situ nano-triboelectrification method to generate patterned triboelectric charges on insulating material surface.This method has been developed using torsional resonance mode atomic force microscopy (AFM). It can significantly...
Published: 1/31/2018
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Inventor(s): Nan Yao, Wei Cai
Keywords(s): microscopy
Category(s): Opto-Electronics/ Electrical Engineering
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