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21 results on '"Yang, Zigang"'

1. Volume-Based Occupancy Detection for In-Cabin Applications by Millimeter Wave Radar.

Author

Gharamohammadi, Ali, Dabak, Anand G., Yang, Zigang, Khajepour, Amir, and Shaker, George

Subjects
MILLIMETER waves, SMART cities, ARTIFICIAL intelligence, RADAR, AUTONOMOUS vehicles
Abstract

In-cabin occupancy detection has become increasingly important due to incidents involving children left in vehicles under extreme temperature conditions. Frequency modulated continuous wave (FMCW) radars are widely used for non-contact monitoring and sensing applications, particularly for occupancy detection. However, the confined and metallic environment inside vehicle cabins presents significant challenges due to multipath reflections. This paper introduces a novel approach that detects the occupied space in each seat to determine occupancy, using the variance of detected points as an indicator of volume occupancy. In an experimental study involving 70 different scenarios with single and multiple subjects, we classify occupants in each seat into one of three categories: adult, baby, or empty. The proposed method achieves an overall accuracy of 96.7% using an Adaboost classifier and a miss-detection rate of 1.8% for detecting babies. This approach demonstrates superior robustness to multipath interference compared to traditional energy-based methods, offering a significant advancement in in-cabin occupancy detection technology. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Effects of microstructure on hydraulic fracturing and gas–water production in coal reservoirs: A case study of the Dahebian coalbed methane block in Western Guizhou, China.

Author

Zhu, Shiliang, Zhou, Xiaozhi, Zhao, Fuping, Wu, Jiaxin, Han, Sijie, Zhao, Lingyun, Zhou, Peiming, Wang, Jun, and Yang, Zigang

Subjects
COALBED methane, HYDRAULIC fracturing, GAS reservoirs, GAS wells, HYDRAULIC engineering, COAL, GAS condensate reservoirs
Abstract

The development of coalbed methane (CBM) in China is susceptible to the influence of microstructure. Therefore, it is crucial to understand the extension laws of hydraulic fractures and engineering responses in coal reservoirs affected by microstructure development. Utilizing the Dahebian block in western Guizhou as the study area, this investigation examines the coal reservoir characteristics, fracturing, and drainage engineering analysis of the well DC1 group in the region. The aim is to discuss the spatial distribution characteristics of hydraulic fractures, geological controlling factors influenced by microstructure, and their corresponding engineering responses. The results indicate that, for coal reservoirs unaffected by microstructure, the extension laws of the fracture network in both longitudinal and planar directions are influenced by burial depth and the regional stress field. In the microstructural belt, tectonic stress dominates, causing changes in the ground stress field. Consequently, the hydraulic fracture network deviates from the direction of the maximum principal stress during the extension process. When a secondary fracture is nearby, the hydraulic fracture network extends towards the shortest path radial secondary fracture direction, leading to a rapid increase in fracture width per unit length until it intersects with the secondary fracture. Additionally, the presence of secondary joints near the microfault structure decreases fracturing pressure and results in a dense distribution of the fracture network. This promotes the formation of a complex fracture network, favorable for fracturing. The extension of the fracture network in complex structural development areas is influenced by the microfault structure between wells, which is reflected in the fracturing construction pressure and fluid output. This accounts for the significant variations in the early drainage performance of CBM wells. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Blind Decoding of Multiple Description Codes over OFDM Systems via Sequential Monte Carlo

Author

Yang Zigang, Guo Dong, and Wang Xiaodong

Subjects
multiple description codes, OFDM, frequency-selective fading, sequential Monte Carlo, turbo receiver, Telecommunication, TK5101-6720, Electronics, TK7800-8360
Abstract

We consider the problem of transmitting a continuous source through an OFDM system. Multiple description scalar quantization (MDSQ) is applied to the source signal, resulting in two correlated source descriptions. The two descriptions are then OFDM modulated and transmitted through two parallel frequency-selective fading channels. At the receiver, a blind turbo receiver is developed for joint OFDM demodulation and MDSQ decoding. Transformation of the extrinsic information of the two descriptions are exchanged between each other to improve system performance. A blind soft-input soft-output OFDM detector is developed, which is based on the techniques of importance sampling and resampling. Such a detector is capable of exchanging the so-called extrinsic information with the other component in the above turbo receiver, and successively improving the overall receiver performance. Finally, we also treat channel-coded systems, and a novel blind turbo receiver is developed for joint demodulation, channel decoding, and MDSQ source decoding.

Published
2005
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5. Food Factors in Health Promotion and Disease Prevention

Author

Fereidoon Shahidi, Chi-Tang Ho, Shaw Watanabe, Toshihiko Osawa, Fereidoon Shahidi, Chi-Tang Ho, Hong Lu, Xiaofeng Meng, Mao-Jung Lee, Chuan Li, Pius Maliakal, Chung S. Yang, S. P. J. Namal Senanayake, Fereidoon Shahidi, Jungil Hong, Chung S. Yang, Zigang Dong, Jen-Kun Lin, Min-Hsiung Pan, Chi-Tang H

Published
2003

8. Joint mobilitytracking and handoff in cellular networks via sequential Monte Carlo filtering

Author

Yang, Zigang and Wang, Xiaodong

Subjects
Signal processing -- Research, Bayesian statistical decision theory -- Research, Monte Carlo method -- Research, Digital signal processor, Business, Computers, Electronics, Electronics and electrical industries
Abstract

Application of sequential Monte Carlo (SMC) methods to the problem of joint mobility tracking and handoff detection in cellular wireless networks is reported and discussed.

Published
2003

10. Blind turbo multiuser detection for long-code multipath CDMA

Author

Yang, Zigang and Wang, Xiaodong

Subjects
Codes -- Analysis, Turbomachines -- Usage, Multiphase flow -- Analysis
Abstract

We consider the problem of demodulating and decoding multiuser information symbols in an uplink asynchronous coded code-division multiple-access (CDMA) system employing long (aperiodic) spreading sequences, in the presence of unknown multipath channels, out-cell multiple-access interference (OMAI), and narrow-band interference (NBI). A blind turbo multiuser receiver, consisting of a novel blind Bayesian multiuser detector and a bank of MAP decoders, is developed for such a system. The effect of OMAI and NBI is modeled as colored Gaussian noise with some unknown covariance matrix. The main contribution of this paper is to develop blind Bayesian multiuser detectors for long-code multipath CDMA systems under both white and colored Gaussian noise. Such detectors are based on the Bayesian inference of all unknown quantities. The Gibbs sampler, a Markov chain Monte Carlo procedure, is then used to calculate the Bayesian estimates of the unknowns. The blind Bayesian multiuser detector computes the a posteriori probabilities of the channel coded symbols, which are differentially encoded before being sent to the channel. Being soft-input soft-output in nature, the proposed blind Bayesian multiuser detectors and the MAP decoders can iteratively exchange the extrinsic information to successively refine the performance, leading to the so-called blind turbo multiuser receiver. Index Terms--Coded system, Gibbs sampler, long-code CDMA, multipath, narrow-band interference, out-cell multiple-access interference, turbo multiuser detection.

Published
2002

12. Blind Decoding of Multiple Description Codes over OFDM Systems via Sequential Monte Carlo

Author

Guo Dong, Wang Xiaodong, and Yang Zigang

Subjects
multiple description codes, OFDM, frequency-selective fading, sequential Monte Carlo, turbo receiver, Telecommunication, TK5101-6720, Electronics, TK7800-8360
Abstract

We consider the problem of transmitting a continuous source through an OFDM system. Multiple description scalar quantization (MDSQ) is applied to the source signal, resulting in two correlated source descriptions. The two descriptions are then OFDM modulated and transmitted through two parallel frequency-selective fading channels. At the receiver, a blind turbo receiver is developed for joint OFDM demodulation and MDSQ decoding. Transformation of the extrinsic information of the two descriptions are exchanged between each other to improve system performance. A blind soft-input soft-output OFDM detector is developed, which is based on the techniques of importance sampling and resampling. Such a detector is capable of exchanging the so-called extrinsic information with the other component in the above turbo receiver, and successively improving the overall receiver performance. Finally, we also treat channel-coded systems, and a novel blind turbo receiver is developed for joint demodulation, channel decoding, and MDSQ source decoding.

Published
2005

13. Study on the influence of environmental humidity on smoking quality of cigarettes.

Author

YU Sen, YANG Tao, XU Xingyang, ZHOU Jin, SHEN Yanwen, PENG Zefen, and YANG Zigang

Subjects
SMOKING, ENVIRONMENTAL sciences, HUMIDITY, SENSORY evaluation, CIGARETTES
Abstract

After a certain brand of cigarettes was equilibrated in different environmental humidity (40%, 50%, 60%, 70%, 80%) for 48 hours, the cigarette ash measuring tester was used to test the ash consolidation, ash dropping times and combustion performance. The sensory evaluation of cigarettes and the types and total amount of aroma components in the smoke were analyzed. The results showed that: with the increase of environmental humidity, the ash consolidation of cigarettes became worse, the number and frequency of ash dropping increased, and the burning time increased. The sensory evaluation score first increased and then de-creased. When the environmental humidity was 60%, the sensory evaluation results were the best; the types and total amount of aroma components in the smoke also increased first and then decreased. When the environmental humidity was 60%, the types and total amounts of aroma components were the most, which was consistent with the sensory evaluation results. In summary, the best environmental humidity was 60%, and the appearance and internal quality of cigarettes were greatly improved at this humidity. [ABSTRACT FROM AUTHOR]

Published
2020
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14. Preparation of PLL-PEG-PLL and its application to DNA encapsulation

Author

Cheng Shiyuan, MA Lixin, Zhou Fen, Zhai Chao, Yuan Jian-jun, and Yang Zigang

Subjects
endocrine system, Nuclease, biology, General Chemistry, Transfection, biochemical phenomena, metabolism, and nutrition, Electrostatics, Micelle, In vitro, chemistry.chemical_compound, chemistry, Chemical engineering, PEG ratio, biology.protein, Copolymer, Organic chemistry, DNA
Abstract

PLL-PEG-PLL was synthesized by deprotection of the amino group of PLL(Z)-PEG-PLL(Z). The properties of the polyion complex (PIC) micelles comprising of PLL-PEG-PLL and DNA were investigated. The results showed that the core of PIC was formed by PLL and DNA through electrostatic interactions, and PEG was shell of PIC, so PIC micelles in aqueous medium were homogenous with no precipitation even under the neutral condition, and PIC had the characteristic of stability, which were very important in gene therapy. At the same time, the results showed PLL-PEG-PLL could condense DNA, longer PLL blocks were generally more effective at condensation, and the nuclease resistance of DNA was increased remarkably. PIC was spherical with diameter of 10–35 nm, which could be easily taken up by cells. Transfection experiments in vitro showed that the DNA encapsulated could be expressed in the cell line SF9.

Published
2006

21. Blind turbo multiuser detection for long-code multipath CDMA. (Abstracts of Forthcoming Manuscripts)

Author

Yang, Zigang and Wang, Xiaodong

Subjects
Codes -- Analysis, Multiuser software -- Analysis, Programming languages -- Analysis
Abstract

We consider the problem of demodulating and decoding multiuser information symbols in an uplink asynchronous coded CDMA system employing long (aperiodic) spreading sequences, in the presence of unknown multipath channels, out-cell multiple-access interference (OMAI) and narrowband interference (NBI). A blind turbo multiuser receiver, consisting of a novel blind Bayesian multiuser detector and a bank of MAP decoders, is developed for such a system. The effect of OMAI and NBI is modeled as colored Gaussian noise with some unknown covariance matrix. The main contribution of this paper is to develop blind Bayesian multiuser detectors for long-code multipath CDMA systems under both white and colored Gaussian noise. Such detectors are based on the Bayesian inference of all unknown quantities. The Gibbs sampler, a Markov chain Monte Carlo procedure, is then used to calculate the Bayesian estimates of the unknowns. The blind Bayesian multiuser detector computes the a posteriori probabilities of the channel coded symbols, which are differentially encoded before being sent to the channel. Being soft-input soft-output in nature, the proposed blind Bayesian multiuser detectors and the MAP decoders can iteratively exchange the extrinsic information to the successively refine the performance, leading to the so-called blind turbo multiuser receiver.

Published
2001

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