Complications and Long-Term Outcomes of Open Reduction and Plate Fixation of Proximal Humeral Fractures

A passive UHF RF identification (RFID) tag IC with embedded 2-KB ferroelectric RAM (FeRAM) for rewritable applications enables a 2.9 times faster read-and-write transaction time over EEPROM-based tag ICs. The resulting FeRAM-based tag has a nominally identical communication range for both read and write operations, which is indispensable for data write applications. The evaluated tag communication range with a folded dipole antenna is from 0 m to 4.3 m, at the 953-MHz carrier frequency with 4-W transmitting Effective Isotropic Radiated Power (EIRP) from a reader/writer. The developed tag IC features two circuit blocks to maximize the communication range in 0.35-m CMOS/FeRAM technology.First is a CMOS-only full-wave rectifier, which can improve the measured efficiency by up to 36.6% by reducing the input parasitic capacitances and optimization of multiplier structure. This efficiency is more than twice that of previously-published results. Second is a low-voltage current-mode ASK demodulator to accommodate a low-breakdown voltage of FeRAM, which converts the ASK power modulation into a linearly modulated current over an incoming power range of 27 dB, corresponding to the entire communication range. The developed demodulator can thus resolve the primary design tradeoff issue between device protection and detection sensitivity in the conventional voltage-mode demodulator.Index Terms-CMOS-only full-wave rectifier, current-mode demodulator, electromagnetic radiative interference, ferroelectric random access memories, identical read/write communication, UHF radio frequency identification.

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A Passive UHF RFID Tag LSI with 36.6% Efficiency CMOS-Only Rectifier and Current-Mode Demodulator in 0.35/spl mu/m FeRAM Technology

Nakamoto

Yamamoto

Kurata

et al. 2006

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A hybrid machine learning approach to automatic plant phenotyping for smart agriculture

Yahata

Onishi

Yamaguchi

et al. 2017

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cReComp: Automated Design Tool for ROS-Compliant FPGA Component

Yamashina

Kimura

Ohkawa

et al. 2016

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A 7bit 800Msps 120mW Folding and Interpolation ADC Using a Mixed-Averaging Scheme

Makigawa¹,

Ono²,

Ohkawa³

et al.

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Acceleration of Publish/Subscribe Messaging in ROS-compliant FPGA Component

Sugata

Ohkawa

Ootsu

et al. 2017

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Computer-Aided Construction of Coal Molecular Structure Using Construction Knowledge and Partial Structure Evaluation

Ohkawa¹,

Sasai²,

Komoda³

et al. 1997

Energy Fuels

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A computer-aided construction of molecular structure model for coal organic materials is proposed in this paper. In this method, the chemical fragments of coal organic materials are obtained by using the structural data of typical Japanese bituminous Akabira coal. First, some partial structures are selected from candidates of the structure, which are constructed by connecting input fragments based on construction knowledge from basic chemical experiments and practical experiments. Next, the partial structures are narrowed down to an appropriate one in terms of three-dimensional conformation by using partial structure evaluation. We found that this method can derive molecular structures more scientifically and in more time-saving way than the handmade structures.

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Decomposition method for fast computation of gigapixel-sized Fresnel holograms on a graphics processing unit cluster

et al. 2018

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A parallel computation method for large-size Fresnel computer-generated hologram (CGH) is reported. The method was introduced by us in an earlier report as a technique for calculating Fourier CGH from 2D object data. In this paper we extend the method to compute Fresnel CGH from 3D object data. The scale of the computation problem is also expanded to 2 gigapixels, making it closer to real application requirements. The significant feature of the reported method is its ability to avoid communication overhead and thereby fully utilize the computing power of parallel devices. The method exhibits three layers of parallelism that favor small to large scale parallel computing machines. Simulation and optical experiments were conducted to demonstrate the workability and to evaluate the efficiency of the proposed technique. A two-times improvement in computation speed has been achieved compared to the conventional method, on a 16-node cluster (one GPU per node) utilizing only one layer of parallelism. A 20-times improvement in computation speed has been estimated utilizing two layers of parallelism on a very large-scale parallel machine with 16 nodes, where each node has 16 GPUs.

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Takenao Ohkawa

A Passive UHF RF Identification CMOS Tag IC Using Ferroelectric RAM in 0.35-$\mu{\hbox {m}}$ Technology

A Passive UHF RFID Tag LSI with 36.6% Efficiency CMOS-Only Rectifier and Current-Mode Demodulator in 0.35/spl mu/m FeRAM Technology

A hybrid machine learning approach to automatic plant phenotyping for smart agriculture

cReComp: Automated Design Tool for ROS-Compliant FPGA Component

A 7bit 800Msps 120mW Folding and Interpolation ADC Using a Mixed-Averaging Scheme

Acceleration of Publish/Subscribe Messaging in ROS-compliant FPGA Component

Computer-Aided Construction of Coal Molecular Structure Using Construction Knowledge and Partial Structure Evaluation

Decomposition method for fast computation of gigapixel-sized Fresnel holograms on a graphics processing unit cluster

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