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96 results on '"Xie, Zhiheng"'

1. Three-dimensional atomic interface between metal and oxide in Zr-ZrO2 nanoparticles

Author

Zhang, Yao, Li, Zezhou, Tong, Xing, Xie, Zhiheng, Huang, Siwei, Zhang, Yue-E, Ke, Hai-Bo, Wang, Wei-Hua, and Zhou, Jihan

Subjects
Condensed Matter - Materials Science
Abstract

Metal-oxide interfaces with poor coherency have unique properties comparing to the bulk materials and offer broad applications in the fields of heterogeneous catalysis, battery, and electronics. However, current understanding of the three-dimensional (3D) atomic metal-oxide interfaces remains limited because of their inherent structural complexity and limitations of conventional two-dimensional imaging techniques. Here, we determine the 3D atomic structure of metal-oxide interfaces in zirconium-zirconia nanoparticles using atomic-resolution electron tomography. We quantitatively analyze the atomic concentration and the degree of oxidation, and find the coherency and translational symmetry of the interfaces are broken. Moreover, we observe porous structures such as Zr vacancies and nano-pores and investigate their distribution. Our findings provide a clear 3D atomic picture of metal-oxide interface with direct experimental evidence. We anticipate this work could encourage future studies on fundamental problems of oxides such as interfacial structures in semiconductor and atomic motion during oxidation process., Comment: 35 pages, 4 main figures, 17 Supplementary figures

Published
2024

2. Janus icosahedral particles: amorphization driven by three-dimensional atomic misfit and edge dislocation compensation

Author

Sun, Zhen, Zhang, Yao, Li, Zezhou, Du, Xuanxuan, Xie, Zhiheng, Dai, Yiheng, Ophus, Colin, and Zhou, Jihan

Subjects
Condensed Matter - Materials Science
Abstract

Icosahedral nanoparticles composed of fivefold twinned tetrahedra have broad applications. The strain relief mechanism and angular deficiency in icosahedral multiply twinned particles are poorly understood in three dimensions. Here, we resolved the three-dimensional atomic structures of Janus icosahedral nanoparticles using atomic resolution electron tomography. A geometrically fivefold face consistently corresponds to a less ordered face like two hemispheres. We quantify rich structural variety of icosahedra including bond orientation order, bond length, strain tensor; and packing efficiency, atom number, solid angle of each tetrahedron. These structural characteristics exhibit two-sided distribution. Edge dislocations near the axial atoms and small disordered domains fill the angular deficiency. Our findings provide new insights how the fivefold symmetry can be compensated and the geometrically-necessary internal strains relived in multiply twinned particles., Comment: 30 pages, 5 figures

Published
2023
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4. Probing the atomically diffuse interfaces in core-shell nanoparticles in three dimensions

Author

Li, Zezhou, Xie, Zhiheng, Zhang, Yao, Mu, Xilong, Yin, Hai-jing, Zhang, Ya-wen, Ophus, Colin, and Zhou, Jihan

Subjects
Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

Deciphering the three-dimensional atomic structure of solid-solid interfaces in core-shell nanomaterials is the key to understand their remarkable catalytical, optical and electronic properties. Here, we probe the three-dimensional atomic structures of palladium-platinum core-shell nanoparticles at the single-atom level using atomic resolution electron tomography. We successfully quantify the rich structural variety of core-shell nanoparticles including bond length, coordination number, local bond orientation order, grain boundary, and five-fold symmetry, all in 3D at atomic resolution. Instead of forming an atomically-sharp boundary, the core-shell interface is atomically diffuse with an average thickness of 4.2 A, irrespective of the particle's size, morphology, or crystallographic texture. The high concentration of Pd in the interface is highly related to the electric double layers of the Pd seeds. These results advance our understanding of core-shell structures at the fundamental level, providing potential strategies into nanomaterial manipulation and chemical property regulation., Comment: 41 pages, 18 figures

Published
2022
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5. Probing the atomically diffuse interfaces in Pd@Pt core-shell nanoparticles in three dimensions

Author

Li, Zezhou, Xie, Zhiheng, Zhang, Yao, Mu, Xilong, Xie, Jisheng, Yin, Hai-Jing, Zhang, Ya-Wen, Ophus, Colin, and Zhou, Jihan

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Engineering, Physical Sciences, Nanotechnology, Bioengineering
Abstract

Deciphering the three-dimensional atomic structure of solid-solid interfaces in core-shell nanomaterials is the key to understand their catalytical, optical and electronic properties. Here, we probe the three-dimensional atomic structures of palladium-platinum core-shell nanoparticles at the single-atom level using atomic resolution electron tomography. We quantify the rich structural variety of core-shell nanoparticles with heteroepitaxy in 3D at atomic resolution. Instead of forming an atomically-sharp boundary, the core-shell interface is found to be atomically diffuse with an average thickness of 4.2 Å, irrespective of the particle's morphology or crystallographic texture. The high concentration of Pd in the diffusive interface is highly related to the free Pd atoms dissolved from the Pd seeds, which is confirmed by atomic images of Pd and Pt single atoms and sub-nanometer clusters using cryogenic electron microscopy. These results advance our understanding of core-shell structures at the fundamental level, providing potential strategies into precise nanomaterial manipulation and chemical property regulation.

Published
2023

9. Towards quantitative determination of atomic structures of amorphous materials in three dimensions

Author

Xie Zhiheng, Zhang Yao, Huang Siwei, Li Zezhou, Cheng Qi, and Zhou Jihan

Subjects
amorphous solid, atomic structure, 3D reconstruction, atomic resolution electron tomography, short-range order, medium-range order, Science, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Amorphous materials such as glass, polymer and amorphous alloy have broad applications ranging from daily life to extreme conditions due to their unique properties in elasticity, strength and electrical resistivity. A better understanding of atomic structure of amorphous materials will provide invaluable information for their further engineering and applications. However, experimentally determining the three-dimensional (3D) atomic structure of amorphous materials has been a long-standing problem. Due to the disordered atomic arrangement, amorphous materials do not have any translational and rotational symmetry at long-range scale. Conventional characterization methods, such as the scattering and the microscopy imaging, can only provide the statistic structural information which is averaged over the macroscopic region. The knowledge of the 3D atomic structure of amorphous materials is limited. Recently atomic resolution electron tomography (AET) has proven an increasingly powerful tool for atomic scale structural characterization without any crystalline assumptions, which opens a door to determine the 3D structure of various amorphous materials. In this review, we summarize the state-of-art characterization methods for the exploration of atomic structures of amorphous materials in the past few decades, including X-ray/neutron diffraction, nano-beam and angstrom-beam electron diffraction, fluctuation electron microscopy, high-resolution scanning/transmission electron microscopy, and atom probe tomography. From experimental data and theoretical descriptions, 3D structures of various amorphous materials have been built up. Particularly, we introduce the principles and recent progress of AET, and highlight the most recent groundbreaking feat accomplished by AET, i.e., the first experimental determination of all 3D atomic positions in a multi-component glass-forming alloy and the 3D atomic packing in amorphous solids. We also discuss the new opportunities and challenges for characterizing the chemical and structural defects in amorphous materials.

Published
2023
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10. Three-dimensional atomic insights into the metal-oxide interface in Zr-ZrO2 nanoparticles.

Author

Zhang, Yao, Li, Zezhou, Tong, Xing, Xie, Zhiheng, Huang, Siwei, Zhang, Yue-E, Ke, Hai-Bo, Wang, Wei-Hua, and Zhou, Jihan

Subjects
ATOMIC structure, HETEROGENEOUS catalysis, CHEMICAL bond lengths, INTERFACE structures, NANOPARTICLES
Abstract

Metal-oxide interfaces with poor coherency have specific properties comparing to bulk materials and offer broad applications in heterogeneous catalysis, battery, and electronics. However, current understanding of the three-dimensional (3D) atomic metal-oxide interfaces remains limited because of their inherent structural complexity and the limitations of conventional two-dimensional imaging techniques. Here, we determine the 3D atomic structure of metal-oxide interfaces in zirconium-zirconia nanoparticles using atomic-resolution electron tomography. We quantitatively analyze the atomic concentration and the degree of oxidation, and find the coherency and translational symmetry of the interfaces are broken. Atoms at the interface have low structural ordering, low coordination, and elongated bond length. Moreover, we observe porous structures such as Zr vacancies and nano-pores, and investigate their distribution. Our findings provide a clear 3D atomic picture of metal-oxide interface with direct experimental evidence. We anticipate this work could encourage future studies on fundamental problems of oxides, such as interfacial structures in semiconductor and atomic motion during oxidation process. A detailed understanding of metal-oxide interfaces is essential for uncovering their intrinsic properties. Here, the authors investigate the 3D atomic structure of metal-oxide interfaces in Zr-ZrO2 nanoparticles using atomic-resolution electron tomography. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Analysis of Sulfate Ion Diffusion and Damage Mechanism in Compressed Concrete.

Author

JIN Libing, WANG Zhenhao, WU Tian, XIE Zhiheng, and ZHOU Pin

Abstract

In view of the damage to the durability of concrete structures caused by the coupled effects of loading and sulfate attack in coastal and saline soil environments, a numerical model for the sulfate ion diffusion in compressed concrete was proposed. Firstly, based on Fick's second law, a theoretical diffusion model of sulfate ions in concrete under loading was established by considering the relationship between stress and concrete porosity. Secondly, a three-phase mesoscopic convex polygonal stochastic aggregate model of concrete containing cement mortar, interfacial transition zone, and natural aggregate was established by a self-programmed program, which enabled the mesoscopic simulation of sulfate ions diffusion in compressed concrete. Finally, the validity of the theoretical and mesoscopic models was verified by comparative analysis with the experiment results of full immersion of compressed concrete in a sulfate solution. Then the ion diffusion and damage process of compressed concrete specimens with different water-cement ratios in sulfate solutions of different concentrations were numerically analyzed. The findings indicate that the sulfate ion concentration at the same depth gradually decreased as the compressive stress level increased. The effects of sulfate concentration and the water-cement ratio on sulfate ion diffusion were more evident than with compressive stress. The extent to which compressive stress inhibited ion diffusion was influenced more by the water-cement ratio than by the sulfate concentration. Reducing the water-to-cement ratio appropriately made the compressed concrete more resistant to the sulfate attack. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Strain method for synchronous dynamic measurement of elastic, shear modulus and Poisson's ratio of wood and wood composites

Author

Wang, Zheng, Wang, Wenbo Xie Zhiheng, and Cao, Yu

Subjects
Elasticity (Mechanics) -- Analysis, Engineered wood -- Research -- Properties, Poisson's equation -- Usage, Shear (Mechanics) -- Analysis, Wood -- Properties -- Research, Business, Construction and materials industries
Abstract

ABSTRACT In this work, the principle and method for synchronous dynamic measurement of elasticity, shear modulus and Poisson's ratio of wood and wood composite with two strain gauges were studied [...]

Published
2018
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21. Efficient Electrocatalytic Oxidation of Glycerol via Promoted OH* Generation over Single-Atom-Bismuth-Doped Spinel Co3O4

Author

Wang, Ye, primary, Zhu, Yu-Quan, additional, Xie, Zhiheng, additional, Xu, Si-Min, additional, Xu, Ming, additional, Li, Zezhou, additional, Ma, Lina, additional, Ge, Ruixiang, additional, Zhou, Hua, additional, Li, Zhenhua, additional, Kong, Xianggui, additional, Zheng, Lirong, additional, Zhou, Jihan, additional, and Duan, Haohong, additional

Published
2022
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22. High Availability Data Model for P2P Storage Network

Author

Wu, BangYu, Chi, Chi-Hung, Liu, Cong, Xie, ZhiHeng, Ding, Chen, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Chen, Lei, editor, Triantafillou, Peter, editor, and Suel, Torsten, editor

Published
2010
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24. ​Studies on Cefquinome Sulfate Intramammary Infusion Composited with Varied Excipients for the Prevention of Dairy Cows Mastitis in the Dry Cow Period

Author

Yuan Xiaoqi, Efeng Guo, Wuyi Zhou, Zhou Shuzhen, Xie Zhiheng, Chen Jinghong, Zhichun Gu, Li Chengying, Kou Hehong, and Xu Qiqing

Subjects
Animal science, General Veterinary, business.industry, CEFQUINOME SULFATE, Medicine, Animal Science and Zoology, business, medicine.disease, Mastitis
Abstract

Background: The prevention and treatment of dairy cow mastitis during the dry period are crucial for the dairy industry. In this work, 200 dairy cows without mastitis and normal entering dry period were selected and randomly divided into 4 groups, for the first time, to explore the prevention effects using the different formulations of Cefquinome Sulfate Breast Injection with varied excipients. Methods: Three formulations with various excipients were further evaluated based on the drug residue analysis, somatic cell reduction in the milk and clinical symptoms of mastitis. In the control group, cloxacillin benzathine was utilized for comparisons. Result: All three Cefquinome test groups showed a better effect on prevention than the benzathine cloxacillin group in terms of drug release time, post-partum drug residue, reducing somatic cell count and preventing mastitis in the dry period. Various excipients showed slightly different impacts on the drug residues, the changes in somatic cell counts of dairy cows before and after medication. The prevention effects on mastitis from different excipients were similar after 30 d.

Published
2021

29. Digesting past lessons: China's experience with biogas is starting to pay off

Author

Zhao Yizhang and Xie Zhiheng

Subjects
China -- Energy policy, Biogas -- Usage, Alternative energy sources -- China, Economics, Environmental issues
Abstract

China's efforts to use biogas as an alternative fuel in the 1970s have matured to make biogas a reliable, inexpensive source of fuel for lighting, cooking and agriculture. Research into standard designs and training for farmers on biogas techniques have resulted in construction of nearly 5 million biogas digesters in rural areas. Digesters are being used for sewage treatment and supply 64,000 urban families with biogas. The residue from the digestion process makes excellent fertilizer.

Published
1992

32. Efficient 3G/4G Budget Utilization in Mobile Sensing Applications

Author

Xu, Chao, Hu, Shaohan, Zheng, Wei, Abdelzaher, Tarek F., Hui, Pan, Xie, Zhiheng, Liu, Hengchang, Stankovic, John A., Xu, Chao, Hu, Shaohan, Zheng, Wei, Abdelzaher, Tarek F., Hui, Pan, Xie, Zhiheng, Liu, Hengchang, and Stankovic, John A.

Abstract

This paper explores efficient 3G/4G budget utilization in mobile sensing applications. Distinct from previous research work that either relied on limited WiFi access points or assumed the availability of unlimited 3G/4G communication capability, we offer a more practical mobile sensing system that leverages potential 3G/4G budgets that participants contribute at will, and uses it efficiently customized for the needs of multiple mobile sensing applications with heterogeneous sensitivity to environmental changes. We address the challenge that the information of data generation and WiFi encounters is not a priori knowledge, and propose an online decision making algorithm that takes advantage of participants' historical data. Three typical mobile sensing applications, vehicular application, mobile health and video sharing application are explored. Experimental results demonstrate that our proposed algorithms lead to significantly better system performance compared to alternative solutions for both applications. © 2016 IEEE.

Published
2017

33. Collaborative Localization Using Wireless Sensor Networks

Author

Xie, Zhiheng

Subjects
distributed, wireless sensor networks, localization
Abstract

Wireless sensor networks (WSN) are now widely used in many applications. Knowing each sensor node's position is always a critical issue for these applications. Without the position information, the sensory data become meaningless, and a number of location based routing protocols would not work. In the WSN research field, the existing localization solutions can be divided into range-based solutions and range-free solutions. Despite which method is used, the existing solutions suffer from one or more of the following drawbacks: 1) only including homogeneous positioning information; 2) only suitable for static WSNs, but not mobile WSNs; 3) requiring pre-set infrastructures; 4) non-deterministic uncertainty. Another category of mobile node localization methods are from the robotics field. The representatives are simultaneous localization and mapping (SLAM)and the collaborative localization (CL). However, SLAM solution is not suitable for resource constrained WSN because of its iterative dynamic model, high computational complexity and not taking advantage the collaboration between nodes. The existing CL solutions suffer from either inefficiency or the over confidence problem. This dissertation proposes a unified range-based localization mathematical model, which can be applied to a large scale static WSN, to a large scale WSN with dynamic topology changes, or to a mobile WSN. When designing such a model, the following purposes are addressed: 1) unified representation of various measurement types; 2) suitable for both mobile and static networks; 4) both centralized and decentralized architecture support; 5) providing not only position estimation, but also the quantitative uncertainty (the covariance matrix) of the estimation; 6) efficiency and scalability. The effectiveness and the efficiency of this model are demonstrated by a decentralized and fully self-contained indoor pedestrian localization system. We first propose the incremental node-voltage analysis (INOVA) localization algorithm, which is used to localize a stationary WSN in a centralized way. INOVA analogizes a WSN to a generalized electrical network, and borrows the node-voltage analysis from the electrical engineering field to reduce the computational complexity by 70 times (comparing with the optimization technique based solution--Best Linear Unbiased Estimator). Since INOVA is fast on updating, it is suitable to localize a large scale static WSN with frequently dynamic changes or a mobile network. By using the same idea, an overlapping subgraph estimator of covariance (OSE-COV) algorithm is proposed. Together with the original overlapping subgraph estimator (OSE) algorithm, it is able to estimate both the positions and the covariance matrices of sensor nodes in a decentralized way. In order to localize mobile nodes in even a more efficient way, the elastic decentralized collaborative localization (EDCL) algorithm is proposed. Different form the above two algorithms, which are theoretically optimal and asymptotically optimal respectively, EDCL is a non-optimal solution. By controlling the marginalization factor Q, which indicates the number of the historical measurements allowed to store in memory, EDCL is able to make the trade-off between the optimality and the resource consumption. Besides the localization theory, we also deduce how to use the quantitative uncertainty for confidence region inference and guiding the anchor selection process. To demonstrate the effectiveness of the EDCL algorithm, a hybrid pedestrian collaborative localization system is built. The system is fully decentralized self-contained. It consists of three modules, a RSS to distance estimator, a foot-mounted inertial navigation module, and the EDCL filter. The experimental results show that EDCL reduces the error by as much as 49.44% over the inertial-only solution, and the resource consumption is low (with maximum memory usage 760 bytes and average communication cost 33 bytes per message).

Published
2016
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34. TOPICS IN LOGISTIC REGRESSION ANALYSIS

Author

Xie, Zhiheng

Subjects
Statistical Models, Categorical Data Analysis
Abstract

Discrete-time Markov chains have been used to analyze the transition of subjects from intact cognition to dementia with mild cognitive impairment and global impairment as intervening transient states, and death as competing risk. A multinomial logistic regression model is used to estimate the probability distribution in each row of the one-step transition matrix that correspond to the transient states. We investigate some goodness of fit tests for a multinomial distribution with covariates to assess the fit of this model to the data. We propose a modified chi-square test statistic and a score test statistic for the multinomial assumption in each row of the transition probability matrix. Multinomial logistic regression with categorical covariates can be analyzed by contingency tables. Exact p-value of goodness of fit test can be calculated based on MCMC samples. We show a hybrid scheme of the sequential importance sampling (SIS) procedure and the MCMC procedure for two-way contingency tables. We apply the SIS-MCMC procedure to the Nun Study data, a cohort of 461 participants on aging disease. The presence of the APOE-4 allele, levels of education are included as covariates in the application. Different grouping methods on age are also discussed. Separating data into four groups based on quantiles of age is recommended in the Nun Study. The traditional logistic regression model restricts the analysis on observations with complete covariate data, and ignores the incomplete observations due to missing or censored covariates. However, much information is lost in this approach. We introduce a maximum likelihood estimation based on the joint distribution of binary response variable, complete covariate and a right censored covariate. Simulation results show that the estimates with the new method are more accurate than those with the traditional complete case method when the sample size is relatively small or medium, across different censoring pattern. The proposed method is also applied to a model to analyze the relationship between the presence of arteriolosclerosis and the stay time in mild cognitive impairment of patients from SMART Study.

Published
2016
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38. An Automatic, Robust, and Efficient Multi-User Breadcrumb System for Emergency Response Applications

Author

Liu, Hengchang, Xie, Zhiheng, Li, Jingyuan, Siu, David, Hui, Pan, Whitehouse, Kamin, Stankovic, John, Liu, Hengchang, Xie, Zhiheng, Li, Jingyuan, Siu, David, Hui, Pan, Whitehouse, Kamin, and Stankovic, John

Abstract

Breadcrumb systems (BCS) aid first responders by communicating their physiological parameters to remotely located base stations. In this paper, we describe the design, implementation, and evaluation of an automatic and robust multi-user breadcrumb system for indoor first response applications. Our solution includes a breadcrumb dispenser with a link estimator that is used to decide when to deploy breadcrumbs to maintain reliable wireless connectivity. The solution includes accounting for realities of buildings and dispensing such as the height difference between where the dispenser is worn and the floor where the dispensed nodes are found. We also include adaptive power management to maintain link quality over time. Moreover, we propose UF, a distributed cooperative deployment algorithm, to achieve longer breadcrumb chain lengths while maintaining fairness and high system reliability via selecting appropriate benefit and cost functions. We deployed and evaluated our system in real buildings with several different first responder mobility patterns. Experimental results from our study show that compared to the state of the art solution , our breadcrumb system achieves 200 percent link redundancy with only 23 percent additional deployed nodes. Our deployed breadcrumb chain can achieve 90 percent PRR when one node fails in the chain. In addition, by applying the UF coordination algorithm, the system can maintain connectivity for up to 87 percent longer distances than baseline greedy coordination approach while maintaining 96 percent packet delivery ratio.

Published
2014

39. Providing Reliable and Real-Time Delivery in the Presence of Body Shadowing in Breadcrumb Systems

Author

Liu, Hengchang, Hui, Pan, Xie, Zhiheng, Li, Jingyuan, Siu, David, Zhou, Gang, Huang, Liusheng, Stankovic, John A., Liu, Hengchang, Hui, Pan, Xie, Zhiheng, Li, Jingyuan, Siu, David, Zhou, Gang, Huang, Liusheng, and Stankovic, John A.

Abstract

The primary goal of breadcrumb trail sensor networks is to transmit in real-time users' physiological parameters that measure life-critical functions to an incident commander through reliable multihop communication. In applications using breadcrumb solutions, there are often many users working together, and this creates a well-known body shadowing effect (BSE). In this article, we first measure the characteristics of body shadowing for 2.4GHz sensor nodes. Our empirical results show that the body shadowing effect leads to severe packet loss and consequently very poor real-time performance. Then we develop a novel Intentional Forwarding solution. This solution accurately detects the shadowing mode and enables selected neighbors to forward data packets. Experimental results from a fully implemented testbed demonstrate that Intentional Forwarding is able to improve the end-to-end average packet delivery ratio (PDR) from 58% to 93% and worst-case PDR from 45% to 85%, and is able to meet soft real-time requirements even under severe body shadowing problems.

Published
2014

40. Towards Automatic Phone-to-phone Communication for Vehicular Networking Applications

Author

Hu, Shaohan, Liu, Hengchang, Sun, Lu, Wang, Hongyan, Abdelzaher, Tarek, Hui, Pan, Zheng, Wei, Xie, Zhiheng, Stankovic, John, Hu, Shaohan, Liu, Hengchang, Sun, Lu, Wang, Hongyan, Abdelzaher, Tarek, Hui, Pan, Zheng, Wei, Xie, Zhiheng, and Stankovic, John

Abstract

This paper explores direct phone-to-phone communication (via WiFi interface) among vehicles to support mobile sensing applications. Direct communication among drivers' phones is important in improving data collection efficiency and sharing participatory sensing information in an inexpensive manner. We design a practical and optimized communication mechanism for direct phone-to-phone data transfer among drivers' phones that strategically enables phone-to-phone and/or phone-to-WiFiAP communications by optimally toggles the phone between the normal client and the hotspot modes. We take advantage of the WiFi hotspot functionality on smartphones, and hence require neither involvement of participants nor changes to existing wireless infrastructure and protocols. An analytical model is established to optimize toggling between client and hotspot modes for optimal system efficiency. We fully implement this system on off-the-shelf Google Galaxy Nexus and Nexus S phones. Through a 35-vehicle 2-month deployment study, as well as simulation experiments using the real-world T-drive 9,211-taxicab dataset, we show that our solution significantly reduces data transfer delay time and maintains over 80% efficiency under varying system parameters. We even achieve 90% for parameter settings of the latest smartphones. © 2014 IEEE.

Published
2014

44. Efficient 3G Budget Utilization in Mobile Participatory Sensing Applications

Author

Liu, Hengchang, Hu, Shaohan, Zheng, Wei, Xie, Zhiheng, Wang, Shiguang, Hui, Pan, Abdelzaher, Tarek, Liu, Hengchang, Hu, Shaohan, Zheng, Wei, Xie, Zhiheng, Wang, Shiguang, Hui, Pan, and Abdelzaher, Tarek

Abstract

This paper explores efficient 3G budget utilization in mobile participatory sensing applications. 1Distinct from previous research work that either rely on limited WiFi access points or assume the availability of unlimited 3G communication capability, we offer a more practical participatory sensing system that leverages potential 3G budgets that participants contribute at will, and uses it efficiently customized for the needs of multiple participatory sensing applications with heterogeneous sensitivity to environmental changes. We address the challenge that the information of data generation and WiFi encounters is not a priori knowledge, and propose an online decision making algorithm that takes advantage of participants' historical data. We also develop a heuristic algorithm to consume less energy and reduce the storage overhead while maintaining efficient 3G budget utilization. Experimental results from a 30-participant deployment demonstrate that, even when the budget is as small as 2.5% of a popular data plan, these two algorithms achieve higher utility of uploaded data compared to the baseline solution, especially, they increase the utility of received data by 151.4% and 137.8% for those sensitive applications. © 2013 IEEE.

Published
2013

45. Intentional Forwarding: Providing Reliable and Real-Time Delivery in the Presence of Body Shadowing in Breadcrumb Systems

Author

Liu, Hengchang, Xie, Zhiheng, Li, Jingyuan, Stankovic, John, Hui, Pan, Siu, David, Liu, Hengchang, Xie, Zhiheng, Li, Jingyuan, Stankovic, John, Hui, Pan, and Siu, David

Abstract

The primary goal of breadcrumb trail sensor networks is to transmit in real-time users' physiological parameters that measure life critical functions to an incident commander through reliable multihop communication. In applications using breadcrumb solutions, there are often many users working together, and this creates a well-known body shadowing effect (BSE). In this paper, we first measure the characteristics of body shadowing for 2.4 GHz sensor nodes. Our empirical results show that the body shadowing effect leads to severe packet loss, and consequently very poor real-time performance. Then we develop a novel Intentional Forwarding solution. This solution accurately detects the shadowing mode and enables selected neighbors to forward data packets. Experimental results from a fully implemented testbed demonstrate that Intentional Forwarding is able to improve the end-to-end average packet delivery ratio (PDR) from 58% to 93% and worst-case PDR from 45% to 85%, and meet soft real-time requirements even under severe body shadowing problems. © 2012 IEEE.

Published
2012

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