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509 results on '"Nishimura, Toshihiko"'

1. Memory-Efficient Point Cloud Registration via Overlapping Region Sampling

Author

Shimada, Tomoyasu, Murasaki, Kazuhiko, Sato, Shogo, Nishimura, Toshihiko, Yoshida, Taiga, and Tanida, Ryuichi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent advances in deep learning have improved 3D point cloud registration but increased graphics processing unit (GPU) memory usage, often requiring preliminary sampling that reduces accuracy. We propose an overlapping region sampling method to reduce memory usage while maintaining accuracy. Our approach estimates the overlapping region and intensively samples from it, using a k-nearest-neighbor (kNN) based point compression mechanism with multi layer perceptron (MLP) and transformer architectures. Evaluations on 3DMatch and 3DLoMatch datasets show our method outperforms other sampling methods in registration recall, especially at lower GPU memory levels. For 3DMatch, we achieve 94% recall with 33% reduced memory usage, with greater advantages in 3DLoMatch. Our method enables efficient large-scale point cloud registration in resource-constrained environments, maintaining high accuracy while significantly reducing memory requirements., Comment: accepted for IEEE International Conference on Visual Communications and Image Processing 2024 (VCIP2024)

Published
2024

2. Near-optimal stochastic MIMO signal detection with a mixture of t-distribution prior

Author

Hagiwara, Junichiro, Matsumura, Kazushi, Asumi, Hiroki, Kasuga, Yukiko, Nishimura, Toshihiko, Sato, Takanori, Ogawa, Yasutaka, and Ohgane, Takeo

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Information Theory
Abstract

Multiple-input multiple-output (MIMO) systems will play a crucial role in future wireless communication, but improving their signal detection performance to increase transmission efficiency remains a challenge. To address this issue, we propose extending the discrete signal detection problem in MIMO systems to a continuous one and applying the Hamiltonian Monte Carlo method, an efficient Markov chain Monte Carlo algorithm. In our previous studies, we have used a mixture of normal distributions for the prior distribution. In this study, we propose using a mixture of t-distributions, which further improves detection performance. Based on our theoretical analysis and computer simulations, the proposed method can achieve near-optimal signal detection with polynomial computational complexity. This high-performance and practical MIMO signal detection could contribute to the development of the 6th-generation mobile network., Comment: Published in the 2023 IEEE Global Communications Conference (GLOBECOM)

Published
2023
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9. Human hepatic organoids for the analysis of human genetic diseases

Author

Guan, Yuan, primary, Xu, Dan, additional, Garfin, Phillip M., additional, Ehmer, Ursula, additional, Hurwitz, Melissa, additional, Enns, Greg, additional, Michie, Sara, additional, Wu, Manhong, additional, Zheng, Ming, additional, Nishimura, Toshihiko, additional, Sage, Julien, additional, and Peltz, Gary, additional

Published
2023
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11. Deep Neural Networks Based End-to-End DOA Estimation System

Author

Ando, Daniel Akira, Kase, Yuya, Nishimura, Toshihiko, Sato, Takanori, Ohganey, Takeo, Ogawa, Yasutaka, Hagiwara, Junichiro, Ando, Daniel Akira, Kase, Yuya, Nishimura, Toshihiko, Sato, Takanori, Ohganey, Takeo, Ogawa, Yasutaka, and Hagiwara, Junichiro

Abstract

Direction of arrival (DOA) estimation is an antenna array signal processing technique used in, for instance, radar and sonar systems, source localization, and channel state information retrieval. As new applications and use cases appear with the development of next generation mobile communications systems, DOA estimation performance must be continually increased in order to support the nonstop growing demand for wireless technologies. In previous works, we verified that a deep neural network (DNN) trained offline is a strong candidate tool with the promise of achieving great on-grid DOA estimation performance, even compared to traditional algorithms. In this paper, we propose new techniques for further DOA estimation accuracy enhancement incorporating signal-to-noise ratio (SNR) prediction and an end-to-end DOA estimation system, which consists of three components: source number estimator, DOA angular spectrum grid estimator, and DOA detector. Here, we expand the performance of the DOA detector and angular spectrum estimator, and present a new solution for source number estimation based on DNN with very simple design. The proposed DNN system applied with said enhancement techniques has shown great estimation performance regarding the success rate metric for the case of two radio wave sources although not fully satisfactory results are obtained for the case of three sources.

Published
2023

15. Full-scale test and numerical analysis of composite flooring system exposed to a long duration ISO fire

Author

Shintani, Yusuke, Nishimura, Toshihiko, and Kimura, Kei

Abstract

Full-scale fire tests and numerical analyses of the composite flooring system were conducted to understand (a) the effects of supporting condition of the concrete slab on the membrane action and (b) ultimate states of the concrete slab with large displacement where the specimens lost integrity. Two reinforced concrete slabs and three composite slabs were exposed to 3-8 h ISO834 heating under the vertical load bearing condition. The experimental results of RC slabs showed that the displacement of the supporting beams of the slabs affected little the appearance of the membrane action of the concrete slab if the beams could support the slabs. The large relative displacement, which was 1/11 to 1/10 of the short span of the specimen, caused penetration cracks parallel to the shot-side direction of the specimen, which could lead to the loss of integrity. Finite element analysis also showed that the strain at unheated concrete surface in the long-side direction of the specimen caused by the tensile stress in reinforcement was larger than that in the short-side direction, which was consistent with the appearance of the concrete crack in the tests.

Published
2023
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22. Accuracy Improvement in DOA Estimation with Deep Learning

Author

Kase, Yuya, Nishimura, Toshihiko, Ohgane, Takeo, Ogawa, Yasutaka, Sato, Takanori, Kishiyama, Yoshihisa, Kase, Yuya, Nishimura, Toshihiko, Ohgane, Takeo, Ogawa, Yasutaka, Sato, Takanori, and Kishiyama, Yoshihisa

Abstract

Direction of arrival (DOA) estimation of wireless signals is demanded in many applications. In addition to classical methods such as MUSIC and ESPRIT, non-linear algorithms such as compressed sensing have become common subjects of study recently. Deep learning or machine learning is also known as a non-linear algorithm and has been applied in various fields. Generally, DOA estimation using deep learning is classified as on-grid estimation. A major problem of on-grid estimation is that the accuracy may be degraded when the DOA is near the boundary. To reduce such estimation errors, we propose a method of combining two DNNs whose grids are offset by one half of the grid size. Simulation results show that our proposal outperforms MUSIC which is a typical off-grid estimation method. Furthermore, it is shown that the DNN specially trained for a close DOA case achieves very high accuracy for that case compared with MUSIC.

Published
2022

23. Sub-Terahertz MIMO Spatial Multiplexing in Indoor Propagation Environments

Author

Ogawa, Yasutaka, Utsuno, Taichi, Nishimura, Toshihiko, Ohgane, Takeo, Sato, Takanori, Ogawa, Yasutaka, Utsuno, Taichi, Nishimura, Toshihiko, Ohgane, Takeo, and Sato, Takanori

Abstract

A sub-Terahertz band is envisioned to play a great role in 6G to achieve extreme high data-rate communication. In addition to very wide band transmission, we need spatial multiplexing using a hybrid MIMO system. A recently presented paper, however, reveals that the number of observed multipath components in a sub-Terahertz band is very few in indoor environments. A channel with few multipath components is called sparse. The number of layers (streams), i.e. multiplexing gain in a MIMO system does not exceed the number of multipaths. The sparsity may restrict the spatial multiplexing gain of sub-Terahertz systems, and the poor multiplexing gain may limit the data rate of communication systems. This paper describes fundamental considerations on sub-Terahertz MIMO spatial multiplexing in indoor environments. We examined how we should steer analog beams to multipath components to achieve higher channel capacity. Furthermore, for different beam allocation schemes, we investigated eigenvalue distributions of a channel Gram matrix, power allocation to each layer, and correlations between analog beams. Through simulation results, we have revealed that the analog beams should be steered to all the multipath components to lower correlations and to achieve higher channel capacity.

Published
2022

24. Sub-Terahertz MIMO Spatial Multiplexing in Indoor Propagation Environments

Author

1000070125293, Ogawa, Yasutaka, Utsuno, Taichi, 1000070301934, Nishimura, Toshihiko, 1000010271636, Ohgane, Takeo, Sato, Takanori, 1000070125293, Ogawa, Yasutaka, Utsuno, Taichi, 1000070301934, Nishimura, Toshihiko, 1000010271636, Ohgane, Takeo, and Sato, Takanori

Abstract

A sub-Terahertz band is envisioned to play a great role in 6G to achieve extreme high data-rate communication. In addition to very wide band transmission, we need spatial multiplexing using a hybrid MIMO system. A recently presented paper, however, reveals that the number of observed multipath components in a sub-Terahertz band is very few in indoor environments. A channel with few multipath components is called sparse. The number of layers (streams), i.e. multiplexing gain in a MIMO system does not exceed the number of multipaths. The sparsity may restrict the spatial multiplexing gain of sub-Terahertz systems, and the poor multiplexing gain may limit the data rate of communication systems. This paper describes fundamental considerations on sub-Terahertz MIMO spatial multiplexing in indoor environments. We examined how we should steer analog beams to multipath components to achieve higher channel capacity. Furthermore, for different beam allocation schemes, we investigated eigenvalue distributions of a channel Gram matrix, power allocation to each layer, and correlations between analog beams. Through simulation results, we have revealed that the analog beams should be steered to all the multipath components to lower correlations and to achieve higher channel capacity.

Published
2022

29. Radio Techniques Incorporating Sparse Modeling

Author

Nishimura, Toshihiko, Ogawa, Yasutaka, Ohgane, Takeo, Hagiwara, Junichiro, Nishimura, Toshihiko, Ogawa, Yasutaka, Ohgane, Takeo, and Hagiwara, Junichiro

Abstract

Sparse modeling is one of the most active research areas in engineering and science. The technique provides solutions from far fewer samples exploiting sparsity, that is, the majority of the data are zero. This paper reviews sparse modeling in radio techniques. The first half of this paper introduces direction-of-arrival (DOA) estimation from signals received by multiple antennas. The estimation is carried out using compressed sensing, an effective tool for the sparse modeling, which produces solutions to an underdetermined linear system with a sparse regularization term. The DOA estimation performance is compared among three compressed sensing algorithms. The second half reviews channel state information (CSI) acquisitions in multiple-input multiple-output (MIMO) systems. In time-varying environments, CSI estimated with pilot symbols may be outdated at the actual transmission time. We describe CSI prediction based on sparse DOA estimation, and show excellent precoding performance when using the CSI prediction. The other topic in the second half is sparse Bayesian learning (SBL)-based channel estimation. A base station (BS) has many antennas in a massive MIMO system. A major obstacle for using the massive MIMO system in frequency-division duplex mode is an overhead for downlink CSI acquisition because we need to send many pilot symbols from the BS and to get the feedback from user equipment. An SBL-based channel estimation method can mitigate this issue. In this paper, we describe the outline of the method, and show that the technique can reduce the downlink pilot symbols.

Published
2021

30. Plasma carboxypeptidase B downregulates inflammatory responses in autoimmune arthritis

Author

Song, Jason J., Hwang, Inyong, Cho, Kyung H., Garcia, Michael A., Kim, Arthur J., Wang, Tiffany H., Lindstrom, Tamsin M., Lee, Annette T., Nishimura, Toshihiko, Zhao, Lei, Morser, John, Nesheim, Michael, Goodman, Stuart B., Lee, David M., Bridges, Jr., S. Louis, Gregersen, Peter K., Leung, Lawrence L., and Robinson, William H.

Subjects
Fibrinolysis -- Genetic aspects, Inflammation -- Diagnosis -- Care and treatment, Synovial membranes -- Physiological aspects, Rheumatoid arthritis -- Diagnosis -- Care and treatment, Health care industry
Abstract

The immune and coagulation systems are both implicated in the pathogenesis of rheumatoid arthritis (RA). Plasma carboxypeptidase B (CPB), which is activated by the thrombin/thrombomodulin complex, plays a procoagulant role during fibrin clot formation. However, an antiinflammatory role for CPB is suggested by the recent observation that CPB can cleave proinflammatory mediators, such as C5a, bradykinin, and osteopontin. Here, we show that CPB plays a central role in downregulating C5a-mediated inflammatory responses in autoimmune arthritis. CPB deficiency exacerbated inflammatory arthritis in a mouse model of RA, and cleavage of C5a by CPB suppressed the ability of C5a to recruit immune cells in vivo. In human patients with RA, genotyping of nonsynonymous SNPs in the CPB-encoding gene revealed that the allele encoding a CPB variant with longer half-life was associated with a lower risk of developing radiographically severe RA. Functionally, this CPB variant was more effective at abrogating the proinflammatory properties of C5a. Additionally, expression of both CPB and C5a in synovial fluid was higher in patients with RA than in those with osteoarthritis. These findings suggest that CPB plays a critical role in dampening local, C5a-mediated inflammation and represents a molecular link between inflammation and coagulation in autoimmune arthritis., Introduction Rheumatoid arthritis (RA) is an inflammatory arthritis characterized by activation of both inflammatory and coagulation pathways (1). Fibrin deposition, the culmination of the coagulation cascade, is a hallmark of [...]

Published
2011
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33. Neurotensin increases mortality and mast cells reduce neurotensin levels in a mouse model of sepsis

Author

Piliponsky, Adrian M., Chen, Ching-Cheng, Nishimura, Toshihiko, Metz, Martin, Rios, Eon J., Dobner, Paul R., Wada, Etsuko, Wada, Keiji, Zacharias, Sherma, Mohanasundaram, Uma M., Faix, James D., Abrink, Magnus, Pejler, Gunnar, Pearl, Ronald G., Tsai, Mindy, and Galli, Stephen J.

Abstract

Sepsis is a complex, incompletely understood and often fatal disorder, typically accompanied by hypotension, that is considered to represent a dysregulated host response to infection. Neurotensin (NT) is a 13-amino-acid peptide that, among its multiple effects, induces hypotension. We find that intraperitoneal and plasma concentrations of NT are increased in mice after severe cecal ligation and puncture (CLP), a model of sepsis, and that mice treated with a pharmacological antagonist of NT, or NT deficient mice, show reduced mortality during severe CLIP. In mice, mast cells can degrade NT and reduce NT-induced hypotension and CLP-associated mortality, and optimal expression of these effects requires mast cell expression of neurotensin receptor 1 and neurolysin. These findings show that NT contributes to sepsis-related mortality in mice during severe CLIP and that mast cells can lower NT concentrations, and suggest that mast cell-dependent reduction in NT levels contributes to the ability of mast cells to enhance survival after CLP., Sepsis is the most common cause of death in intensive care units in the United States (1). The host response to sepsis is complex, yet the factors responsible for the [...]

Published
2008

35. Measurement-based performance evaluation of MIMO spatial multiplexing in a multipath-rich indoor environment

Author

Nishimoto, Hiroshi, Ogawa, Yasutaka, Nishimura, Toshihiko, and Ohgane, Takeo

Subjects
Digital multiplexing -- Methods, Multichannel communication -- Methods, Multiplexing -- Methods, Eigenvalues -- Measurement, MIMO communications -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

Multiple-input multiple-output (MIMO) spatial multiplexing that needs to separate and detect transmitted signal streams by using processing at the receiver end can increase the data rates of transmissions on independent and identically distributed (i.i.d.) channels. Such channels have been considered to exist in nonline-of-sight (NLOS) environments. However, actual communications may also be conducted in line-of-sight (LOS) environments. While an LOS component can increase the received power level, it may also cause correlated channels that make it difficult to detect the transmitted streams. In this paper, we describe the performance of 4 x 4 MIMO spatial multiplexing based on LOS and NLOS channel measurements in an indoor environment. For eight configurations of uniform linear arrays (four antenna spacings and two array orientations), we evaluated the cumulative distribution function (CDF) of the channel capacity and bit error rate performance versus transmit power, and we analyzed them in terms of antenna pattern, fading correlation, CDFs of MIMO channel elements, and CDFs of eigenvalues. Results show that, despite higher fading correlations and non i.i.d, channel characteristics, the performance of MIMO spatial multiplexing in the LOS environment is better than that in the NLOS one. However, the performance in the measured LOS environment largely depends on the MIMO configuration. Index Terms--Array element pattern, bit error rate (BER), channel capacity, channel element distribution, eigenvalue distribution, fading correlation, indoor channel measurement, multiple-input multiple-output (MIMO), mutual coupling, spatial multiplexing.

Published
2007

36. Plastic zone coalescence and edge break conditions of internal cracks in a semi-infinite sheet

Author

Nishimura, Toshihiko

Subjects
Integral equations -- Usage, Engineering and manufacturing industries
Abstract

The problem of two cracks in a semi-infinite sheet is analyzed. The critical conditions when adjacent plastic zones just coalesced are obtained. Also, the conditions when a plastic zone just reached the sheet edge are obtained. Assuming the crack and plastic zones as a fictitious crack, the integral equations are formulated in terms of surface traction, nonsingular stress, and zero crack face displacement at the coalescent point or at the sheet edge. By solving the equations, critical remote stress, plastic zone sizes, and crack tip opening displacements are obtained. Numerical results are presented. [DOI: 10.1115/1.2389031]

Published
2007

37. Performance Evaluation of Beam Shapes in a Two-Step-Precoded Massive MIMO System

Author

Yamamoto, Jumpei, Nishimura, Toshihiko, Ohgane, Takeo, Ogawa, Yasutaka, Takeda, Daiki, Kishiyama, Yoshihisa, Yamamoto, Jumpei, Nishimura, Toshihiko, Ohgane, Takeo, Ogawa, Yasutaka, Takeda, Daiki, and Kishiyama, Yoshihisa

Abstract

Massive MIMO is known as a promising technology for multiuser multiplexing in the fifth generation mobile communication system to accommodate the rapidly-increasing traffic. It has a large number of antenna elements and thus provides very sharp beams. As seen in hybrid beamforming, there have already been many papers on the concatenation of two precoders (beamformers). The inner precoder, i.e., a multi-beam former, performs a linear transformation between the element space and the beam space. The outer precoder forms nulls in the limited beam space spanned by selected beams to suppress the inter-user interference. In this two-step precoder, the beam shape is expected to determine the system performance. In this paper, we evaluate the achievable throughput performance for different beam-shaping schemes: a discrete Fourier transform (DFT) beam, Chebyshev weighted beams, and Taylor weighted beam. Simulations show that the DFT beam provides the best performance except the case of imperfect precoding and cell edge SNR of 30 dB.

Published
2020

38. Channel prediction of wideband OFDM systems in a millimeter-wave band based on multipath delay estimation

Author

Takano, Yuta, Nishimura, Toshihiko, Ohgane, Takeo, Ogawa, Yasutaka, Hagiwara, Junichiro, Takano, Yuta, Nishimura, Toshihiko, Ohgane, Takeo, Ogawa, Yasutaka, and Hagiwara, Junichiro

Abstract

Multi-user MIMO systems enable high capacity transmission. A base station, however, needs accurate channel state information (CSI). In time-varying environments, the CSI may be outdated at the actual transmission time. One of the solutions to this issue is channel prediction. The authors have proposed the prediction method using FISTA, a compressive sensing technique, for OFDM systems in a millimeter-wave band. Unfortunately, in realistic multipath environments, the prediction performance of the proposed technique degrades. In this letter, we examine the prediction performance in wider OFDM systems. It will be shown that FISTA reveals excellent performance in a sufficiently wide band case.

Published
2020

46. Strip yield analysis on coalescence of plastic zones for multiple cracks in a riveted stiffened sheet

Author

Nishimura, Toshihiko

Subjects
Strains and stresses -- Research, Airframes -- Fatigue, Science and technology
Abstract

A strip yield model was used to calculate for multiple cracks in a riveted stiffened sheet based on the coalescence conditions of plastic zones. The multiple cracks and their plastic zones were treated as a fictitious crack and algebraic equations were formulated on compatibility of displacements, zero displacement at the coalesced points of plastic zones and no stress singularity at the fictitious crack tips. Numerical results were presented for two cracks in a sheet with and without stiffeners.

Published
1999

47. Beam scan using the quasi-optical antenna mixer array

Author

Nishimura, Toshihiko, Ishii, Nozomu, and Itoh, Kiyohiko

Subjects
Beam optics -- Research, Phased array antennas -- Research, Radio -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The quasi-optical antenna mixer system transforms an RF signal into an intermediate frequency signal just after it spatially receives the RF signal and the local oscillator's (LO) signal. In this paper, we present a novel beam-scanning system using the quasi-optical antenna mixer array and describe its principle of operation and the experimental results in the microwave band. The arrival direction of RF signals can be controlled by adjusting the LO incident angle and/or the LO frequency without implementing RF circuits such as phase shifters. Therefore, the novel beam-scanning system has no loss due to RF circuits and can be easily designed because of its simple composition. Index Terms - Beam scanning, coplanar waveguide, microstrip antenna, phased array, quasi-optical antenna mixer.

Published
1999

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