Your search keyword '"Contact duration"' showing total 42 results

1. Optimal Joint Scheduling and Congestion Window Estimation for Congestion Avoidance in Mobile Opportunistic Networks

Author

Goudar, Gourish and Muralishankar, R.

Published

2025

2. Ideal Test Time for Coronavirus Disease 2019 Contact Tracing

Author

Shigeta Miyake, Hideaki Kato, Nobuko Tanaka, Kohei Shimizu, Hiroki Ozawa, Chiharu Kawakami, Shuzo Usuku, Hideaki Nakajima, and Tetsuya Yamamoto

Subjects

coronavirus disease 2019, contact duration, contact tracing, cycle threshold, risk factor, household contact, Public aspects of medicine, RA1-1270

Abstract

BackgroundEpidemiological contact tracing is a powerful tool to rapidly detect SARS-CoV-2 infection in persons with a close contact history with COVID-19-affected patients. However, it remains unclear whom and when should be PCR tested among the close contact subjects.MethodsWe retrospectively analyzed 817 close contact subjects, including 144 potentially SARS-CoV-2-infected persons. The patient characteristics and contact type, duration between the date of the close contact and specimen sampling, and PCR test results in PCR positive and negative persons were compared.ResultsWe found that male gender {adjusted odds ratio 1.747 [95% confidence interval (CI) 1.180–2.608]}, age ≥ 60 [1.749 (95% CI 1.07–2.812)], and household contact [2.14 (95% CI 1.388–3.371)] are independent risk factors for close contact SARS-CoV-2 infection. Symptomatic subjects were predicted 6.179 (95% CI 3.985–9.61) times more likely to be infected compared to asymptomatic ones. We could observe PCR test positivity between days 1 and 17 after close contact. However, no subject could be found with a Ct-value

Published

2022

3. Characterizing pedestrian contact interaction trajectories to understand spreading risk in human crowds.

Author

Kwak, Jaeyoung, Lees, Michael H., and Cai, Wentong

Subjects

INFECTIOUS disease transmission, CHRONOBIOLOGY, SCIENCE conferences, PEDESTRIANS, BIOLOGICAL systems

Abstract

A spreading process can be observed when particular information, substances, or diseases spread through a population over time in social and biological systems. It is widely believed that contact interactions among individual entities play an essential role in the spreading process. Although contact interactions are often influenced by geometrical conditions, little attention has been paid to understand their effects, especially on contact duration among pedestrians. To examine how the pedestrian flow setups affect contact duration distribution, we have analyzed trajectories of pedestrians in contact interactions collected from pedestrian flow experiments of uni-, bi- and multi-directional setups. Based on turning angle entropy and efficiency, we have classified the type of motion observed in the contact interactions. We have found that the majority of contact interactions in the unidirectional flow setup can be categorized as confined motion, hinting at the possibility of long-lived contact duration. However, ballistic motion is more frequently observed in the other flow conditions, yielding frequent, brief contact interactions. Our results demonstrate that observing more confined motions is likely associated with the increase of parallel contact interactions regardless of pedestrian flow setups. This study highlights that the confined motions tend to yield longer contact duration, suggesting that the infectious disease transmission risk would be considerable even for low transmissibility. These results have important implications for crowd management in the context of minimizing spreading risk. This work is an extended version of Kwak et al. (2023) presented at the 2023 International Conference on Computational Science (ICCS). [ABSTRACT FROM AUTHOR]

Published

2024

4. Role of nanoparticle layer in determining minimum heat flux temperature during quenching of high-temperature body

Author

Yutaro UMEHARA and Tomio OKAWA

Subjects

quenching, nanofluid, nanoparticle layer, minimum heat flux temperature, contact temperature, contact duration, surface property, Mechanical engineering and machinery, TJ1-1570

Abstract

Nanofluid, a liquid containing choroidal dispersion of nanometer-sized solid particles, enables high-temperature bodies to be cooled more rapidly during quenching than in pure liquid. Drastic rise of the minimum heat flux temperature (TMHF) caused by the layer of nanoparticles formed on the heat transfer surface is the key phenomenon of heat transfer enhancement. In the present work, using alumina, silica, and titanium dioxide as the nanoparticle materials, quenching experiments were carried out to explore the mechanisms of the rise of TMHF in nanofluids; stainless steel 304 and Inconel 718 were used as the materials of the specimen and distilled water was used as the base liquid. In the experiments, TMHF increased in all the nanofluids but the increasing rate was dependent significantly on the nanoparticle material and the nanoparticle layer thickness. To elucidate the mechanisms of the heat transfer enhancement, the relations of TMHF with the three basic surface parameters of roughness, wettability, and wickability were examined but no clear relationship was found. When the metal specimen of higher thermal conductivity is covered with the nanoparticle layer of lower thermal conductivity, the contact temperature during quenching should decrease and the contact duration would be dependent on the thermal properties and thickness of the nanoparticle layer. Assuming that TMHF rises with an increase in the contact duration, a new model describing the rise of TMHF in the nanofluid was proposed.

Published

2021

5. Towards Near Optimal WiFi Offloading With Uncertain Contact Duration

Author

Chao Dong, Zhimin Li, Yuben Qu, Qihui Wu, Shaojie Tang, and Zhen Qin

Subjects

Traffic offloading, MAB, WiFi, contact duration, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Due to the simplicity of implementation, user-initiated Wi-Fi offloading becomes more and more popular, and naturally the benefits of users become the main optimization goal. We notice the intercontact and intra-contact durations could be uncertain in reality by reason of the user mobility and network dynamics. The two uncertain durations can cause great impact on the benefit of users; however, they were either ignored or simply assumed to be deterministic in most previous works. In this paper, for the first time, we study Wi-Fi offloading problem with uncertain contact durations. The aim is to guarantee the benefit of users (delay and payment) without damaging operator's benefit (amount of the offloaded traffic) at the same time. We propose a multi-armed bandit (MAB)-based online offloading scheme (MABOO) to solve the problem and prove the near-optimality of MABOO in terms of the utility theoretically. Extensive simulations show that MABOO always approaches the optimal scheme and achieves higher utility as well as offloads more traffic compared with the minimal payment and on-the-spot-offloading schemes.

Published

2018

6. Investigations of Rubbing Phenomenon During Coast-Up Operation of a Cryogenic Engine Turbopump.

Author

Mokhtar, Md. Asjad, Darpe, Ashish K., and Gupta, K.

Subjects

LOW temperature engineering, TURBINE pumps, LIQUID propellant rocket engines, TURBINES, IMPELLERS, LAGRANGE multiplier

Abstract

Background: A turbopump is an important and critical component in the liquid rocket engine assembly where a small deviation in the system parameters such as unbalance level, dimensional tolerances, rotor–stator clearance, etc. can have significant influence on its dynamic behavior and may lead to various faults such as rub. Hence, a detailed rotordynamic study is essential for the entire operating speed range. Purpose: Most of the earlier studies on rotor-stator rub were carried out for simplified rotor models and its implementation on a rotor assembly such as turbopump will be of immense practical relevance for researchers and engineers. Contact mechanics-based Lagrange multiplier method is used to enforce the contact constraints that incorporate compliant stator model which respond to the axial and lateral forces during contact. Methods: A full-scale cryogenic engine turbopump rotor system consisting of turbines, impellers, inducer, bearings and seals is modelled using FE framework to investigate the rotor–stator contact interaction during coast-up. The stator model the a circumferentially positioned beams around rotor disc and investigated using more realistic contact mechanics-based Lagrange multiplier method. Results: The eigenvalue analysis on the FE model gives the rotor critical speeds and the corresponding vibration modes. The constraints imposed by the stator beams and tangential friction due to rub cause a continuous phase shift in the rotor vibration during contact. The physical insights into the distinct rotor vibration features in the two lateral directions are discussed in detail. The influence of clearance level on the observed backward whirl nature of the turbine is established through a full-spectrum analysis. Conclusion: The tighter clearance between rotor and stator gives rise to dominating presence of backward whirl components that may be detrimental to the fatigue life of the shaft due to stress reversal. Duration of the contact interaction is found to decrease significantly with increase in rotor–stator clearance and decrease in friction coefficient. With tighter clearances, the influence of stator stiffness becomes more significant and the rotor response during contact exhibits nonlinear and complex vibration. [ABSTRACT FROM AUTHOR]

Published

2020

7. Application of Tooth Gear Impact-Echo System for Repeated and Rapid Data Acquisition.

Author

Hong, Jinyoung, Choi, Hajin, and Oh, Tae Keun

Subjects

ACQUISITION of data, TEETH, CONCRETE slabs, MICROELECTROMECHANICAL systems, BRIDGE floors, SUBDUCTION zones

Abstract

Developments in air-coupled testing hardware in impact-echo (IE) tests have enabled new levels of scanning tests for concrete bridge decks. A tooth gear IE system has been developed using tooth gears as impactors and microelectromechanical systems (MEMS). Since the tooth gear moves and generates impacts itself, this system collects a large amount of test data across the field continuously. The contact duration of two different tooth gears is evaluated and the contact mechanism is compared to a conventional steel ball impactor by a high-speed camera. The data measurements were carried out on concrete slabs, where artificial delaminations were embedded at different depths. Based on our IE experiments, reducing the pitch or increasing the number of teeth was required to decrease the contact duration and generate the thickness mode frequency from deep delaminations. Rapidly obtained time domain data were transferred to the frequency-time domain using spectrograms to identify the dominant frequency band of the signal set. The results show that the developed system enabled us to acquire high-quality data during air-coupled IE tests and spectrogram analysis provided meaningful frequency information and verified its repeatability. [ABSTRACT FROM AUTHOR]

Published

2020

8. Large Deflection of Elastic Beams under Impact by Rigid Particles.

Author

Chabsang, B., Fariborz, S. J., and Vafa, J. P.

Subjects

DEFLECTION (Mechanics), POISSON'S ratio, EQUATIONS of motion, RELATIVE motion, APPLIED mechanics, TIMOSHENKO beam theory

Published

2020

9. Impact of dominant elastic to elastic-plastic millimeter-sized metal spheres with glass plates.

Author

Jebelisinaki, Farhad, Boettcher, Ronny, van Wachem, Berend, and Mueller, Peter

Subjects

*ELASTIC wave propagation, *COEFFICIENT of restitution, *LAMB waves, *ELASTIC waves, *ENERGY dissipation, *SPHERES, *MATERIAL plasticity

Abstract

The coefficient of restitution and contact duration of the impact of bronze, brass and steel spheres on large (extended in length and width) glass plates have been determined experimentally. The results clearly exhibit different amounts of energy dissipation mainly due to plastic deformation of the spheres and bending of the plate. Influence of the material properties and size of the spheres, impact velocity, thickness of the plate, propagation of elastic waves in the plate, and bending of the plate on the energy dissipation and contact duration have been studied and are discussed in detail. The results have been evaluated with adequate theoretical models from the literature, describing the elastic and elastic-perfectly plastic impacts, namely the models of Hertz, Zener, Hunter, Thornton and Walton-Braun. Unlabelled Image • Experimental investigation of the impact behavior of spheres on plates. • Measurement of the coefficient of restitution and contact duration. • Measurement of the yield velocity during impact. • Model-based evaluation of the experiments. [ABSTRACT FROM AUTHOR]

Published

2019

10. Location Based Contact Time Energy Efficient Routing (LCTEE) Approach for Delay Tolerant Networks.

Author

Savita and Lobiyal, Daya Krishan

Subjects

DELAY-tolerant networks, ROUTING algorithms

Abstract

Most of the routing algorithm developed for DTN are encounter based algorithms in which some nodes meet with high frequency but for short period of time. Therefore, encounters cannot guarantee transmission of large number of messages during a contact. These methods also suffer from high overheads caused by the unnecessary transmissions and long delays due to suboptimal choices for relay nodes. Therefore, in this paper, we considered a duration based utility instead of frequency to achieve high transmission throughput between nodes. Further, to reduce the overheads, we propose to send multiple copies of a message towards the destination using direction based routing. In addition, we also used threshold based buffer management scheme to reduce overheads and improve packet delivery probability. The simulation results show that our proposed strategy reduces overheads as compared to the previous existing strategies while maintaining comparable delivery probability. [ABSTRACT FROM AUTHOR]

Published

2019

11. Investigation of the fabric evolution and the stress-transmission behaviour of sands based on X-ray μCT images.

Author

Cheng, Zhuang and Wang, Jianfeng

Subjects

*X-ray imaging, *GRANULAR materials, *SAND, *IMAGE analysis, *IMAGE processing, *SOFT X rays

Abstract

• Inter-particle contact evolution of a sheared sand was studied using X-ray μ CT. • The duration and stress-transmission characteristics of inter-particle contacts were studied. • The buckling of stress-transmission contacts was quantified. This paper presents the use of X-ray micro-tomography (X-ray μ CT) and image processing and analysis techniques to investigate the stress transmission and buckling of inter-particle contacts within a granular material. A triaxial testing of a miniature Leighton Buzzard sand (LBS) sample was carried out with full-field in-situ X-ray μ CT scanning. High-spatial-resolution CT images of the sample were acquired at several loading stages of the test. Image processing and analysis techniques were used to quantify the inter-particle contact evolution (contact gain, contact loss and contact movement), fabric, contact duration and buckling of stress-transmission contacts based on the CT images. The results indicated that contact gain and loss, and contact movement played two competing roles in determining the overall fabric evolution of the sample. Contacts with a longer duration were more likely to orient in the major principal stress direction and form a stress-transmission contact network. A gradual decrease in the buckling rate of the stress-transmission contacts was observed outside of the shear band, and a relatively stable buckling rate was observed within the shear band during the shear. The results suggested that jamming occurred outside of the shear band and that unjamming occurred within the shear band. [ABSTRACT FROM AUTHOR]

Published

2019

12. An Application-Oriented Buffer Management Strategy in Opportunistic Networks.

Author

Meihua Liu, Xinchen Zhang, Shuangkui Ge, Xiaoli Chen, Jianbin Wu, and Mao Tian

Subjects

DELAY-tolerant networks, INFORMATION networks, ON-demand computing, AD hoc computer networks

Abstract

In Opportunistic networks (ONs), buffer management is critical to improve the message exchanging efficiency due to the limited storage space and transmission bandwidth at the wireless edge. Current solutions make message scheduling and drop policy based on assumptions that messages can always been forwarded in a single contact, and all node pairs have the same contact rates. However, such ideal assumptions are invalid for realistic mobility traces of hand-held. Recent studies show that the single contact duration is limited and the mobility of nodes is heterogeneous in reality. In this paper, a buffer management strategy based on contact duration and heterogeneous mobility is proposed to improve the efficiency of buffer policy in the practical applications. We mainly focus on the minimization of the total expected delivery delay for all messages in ONs with resource constraints. Using the global network information including existing copies of message in the network, the distribution of pair-wise inter-contact time and contact duration between nodes, we develop a function to compute per-message utility which reflects the contribution of single message to the total expected delivery delay. Messages are scheduled or dropped according to their utilities. Simulation results show that our proposed strategy not only achieves lower delivery delay than mainstream strategies, but also keeps a high delivery ratio and a low network overhead. [ABSTRACT FROM AUTHOR]

Published

2019

13. Application of Tooth Gear Impact-Echo System for Repeated and Rapid Data Acquisition

Author

Jinyoung Hong, Hajin Choi, and Tae Keun Oh

Subjects

impact-echo, tooth gear impactor, contact duration, delamination, rapid scanning, non-destructive testing, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Developments in air-coupled testing hardware in impact-echo (IE) tests have enabled new levels of scanning tests for concrete bridge decks. A tooth gear IE system has been developed using tooth gears as impactors and microelectromechanical systems (MEMS). Since the tooth gear moves and generates impacts itself, this system collects a large amount of test data across the field continuously. The contact duration of two different tooth gears is evaluated and the contact mechanism is compared to a conventional steel ball impactor by a high-speed camera. The data measurements were carried out on concrete slabs, where artificial delaminations were embedded at different depths. Based on our IE experiments, reducing the pitch or increasing the number of teeth was required to decrease the contact duration and generate the thickness mode frequency from deep delaminations. Rapidly obtained time domain data were transferred to the frequency-time domain using spectrograms to identify the dominant frequency band of the signal set. The results show that the developed system enabled us to acquire high-quality data during air-coupled IE tests and spectrogram analysis provided meaningful frequency information and verified its repeatability.

Published

2020

14. Time-constrained anycast routing under short contact duration in delay-tolerant networks.

Author

Le, Tuan and Gerla, Mario

Abstract

Delay-tolerant networks (DTNs) are sparse mobile ad hoc networks, in which there is typically no complete path between the source and destination. Anycast is an important group communication paradigm for numerous DTN applications such as resource discovery and information exchange in emergency or crisis situations. Unlike unicast and multicast, which have been studied extensively in DTNs, few prior works have addressed the DTN anycast routing problem. Furthermore, they often ignore the time constraint and assume long contact durations in formulating the relay selection strategy. In this paper, we study a single-copy time-constrained anycast (TCA) routing under short contact duration. We address two key issues: (1) to which next hop relay node should messages be forwarded and (2) in which order should messages be forwarded. To reduce the transmission cost, we select relay nodes from both current and past contacts based on the one-hop and two-hop delivery probabilities, respectively. We derive the delivery probability from the distribution of inter-contact time and contact duration time. We address the case of exponential and Pareto distribution, which are the most popular assumptions in literature. For the message scheduling, messages with the highest delivery probability are prioritized to be transmitted first. Extensive simulation results based on Cabspotting and MIT Reality traces show that our scheme can achieve up to 29% higher delivery rate, 24% lower delay, and 36% lower transmission cost compared to other anycast routing strategies. [ABSTRACT FROM AUTHOR]

Published

2018

15. Health condition evaluation of carbon fiber-reinforced thermoplastic with a tapping system.

Author

Xiuqi Lyu, Yi Wan, Takahashi, Jun, and Isamu Ohsawa

Subjects

*THERMOPLASTIC composites, *CARBON fiber-reinforced plastics, *STIFFNESS (Mechanics), *MANUFACTURING defects, *MANUFACTURING processes

Abstract

Carbon fiber-reinforced thermoplastic (CFRTP) composites are gaining popularity in the manufacturing industry of lightweight automobiles. Common composite defects (e.g. voids and delamination) often occur inside CFRTP composites due to their inappropriate manufacturing process and long-term service. In this study, an instrumented tapping system was designed to evaluate the health condition of CFRTP composites by controlling the input force and velocity. The effective mathematical expressions of the contact duration and amplitude of the interactive force were derived to quantify the local stiffness of the tapping area. The amplitude of the interactive force was introduced innovatively as a significant evaluation parameter for a non-closed force-time curve with the time axis due to the influence of constraint condition and coupling effect of the modal shapes excited during tapping. The contact duration of the interactive force over the defective region was longer than that over the sound region. The amplitude of the interactive force applied on the defective area was observed to be lower than that on the sound area. In addition, the applicability and sensitivity of the amplitude of the interactive force was also investigated by changing the dimensions and locations of defects. [ABSTRACT FROM AUTHOR]

Published

2018

16. Cd226−/− natural killer cells fail to establish stable contacts with cancer cells and show impaired control of tumor metastasis in vivo

Author

Ji Sung Kim, Bo Ram Shin, Hong Kyung Lee, Jae Hee Lee, Ki Hun Kim, Jeong Eun Choi, A Young Ji, Jin Tae Hong, Youngsoo Kim, and Sang-Bae Han

Subjects

contact duration, contact dynamics, contact stability, melanoma, nk cell-mediated cytotoxicity, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

CD226 is an activating receptor expressed on natural killer (NK) cells, CD8+ T cells, and other immune cells. Upon binding to its ligands expressed on target cells, CD226 activates intracellular signaling that triggers cytokine production and degranulation in NK cells. However, the role of CD226 in contact dynamics between NK and cancer cells has remained unclear. Our time-lapse images showed that individual wild-type CD226+ NK cells contacted B16F10 melanoma cells for 23.7 min, but Cd226−/− NK cells only for 12.8 min, although both NK cell subsets showed equal contact frequency over 4 h. On the surface of B16F10 cells, CD226+ cells stayed at the same site with oscillating movement (named stable contact), while Cd226−/− NK cells moved around at a velocity of 4 μm/min (named unstable contact). Consequently, Cd226−/− NK cells did not kill B16F10 cells in vitro and did not inhibit their metastasis into the lung in vivo. Taken together, our data demonstrate that CD226 enables prolonged stable interaction between NK and cancer cells, which is needed for efficient killing of cancer cells.

Published

2017

17. Contact-Aware Optimal Resource Allocation for Mobile Data Offloading in Opportunistic Vehicular Networks.

Author

Zhu, Xiangming, Li, Yong, Jin, Depeng, and Lu, Jianhua

Subjects

*VEHICULAR ad hoc networks, *DATA, *AD hoc computer networks, *STATISTICS, *FEASIBILITY studies

Abstract

To cope with increasing vehicular traffic and extensive application demands on vehicular cellular networks, opportunistic vehicular networks are used to disseminate mobile data by high-capacity device-to-device communication contacts when vehicles come into the communication range of each other, which offloads significant traffic from the cellular network. The current opportunistic vehicular data transmission models often do not take into account the fact that the contact duration is usually very short, due to the high mobility of vehicles, which will limit the amount of data that can be transmitted during one opportunistic contact. In this paper, we consider a mobile data offloading system that integrates cellular network and vehicular opportunistic communications. Based on this proposed system, we establish a mathematical framework to study the problem of contact-aware optimal resource allocation for mobile data offloading by the explicit consideration of the contact duration. Based on theoretical analysis of this problem, we derive an optimal scheme for mobile data offloading to optimally allocate the network resources in terms of opportunistic contacts and offloading helpers’ storage. By carrying out extensive simulation using two realistic urban vehicular traces, we demonstrate the effectiveness of our contact duration aware optimal offloading scheme, in comparison with a wide range of existing schemes. [ABSTRACT FROM AUTHOR]

Published

2017

18. Numerical Study on the Ballistic Impact Response of Aramid Fabric- epoxy Laminated Composites by Armor Piercing Projectile.

Author

Nayak, N., Banerjee, A., and Panda, T.R.

Subjects

LAMINATED materials, IMPACT response, COMPUTER simulation, ELECTROMECHANICAL analogies, MATHEMATICAL models

Abstract

This paper presents the results from experiments and numerical simulations on the ballistic impact of 10 mm thick aramid fabric-epoxy composite laminates by a 7.62 mm armor piercing projectile at varying impact velocities. Post perforated residual velocity (RV), contact duration of projectile with the target and ballistic limit (BL) of composite were simulated using a finite element code HyperWorks-Radioss. Interaction of projectile with composite laminates was captured by high speed video. The predicted ballistic parameter from simulation compared well with the precision experimental results. The simulated energy and stress distribution during impact of projectile on composite laminate showed marked difference with variation in impact velocities (SV). The magnitude and duration of stress as well as the contact force was found to increase when projectile impacted at lower SV thus enhancing the extent of delaminating and the core damage area and the trend was reversed for higher SV. The findings corroborate the bullet inflicted damage of composite laminates experimentally determined by ultrasonic C-scan. [ABSTRACT FROM AUTHOR]

Published

2017

19. Damping coefficient and contact duration relations for continuous nonlinear spring-dashpot contact model in DEM.

Author

Jordam Caserta, Alice, Navarro, Hélio A., and Cabezas-Gómez, Luben

Subjects

*DASHPOTS (Mechanical devices), *DAMPERS (Mechanical devices), *DAMPING (Mechanics), *VIBRATION (Mechanics), *DYNAMICAL systems

Abstract

The soft-sphere model design of the discrete element method is based on types of dynamic systems for determining the contact forces. These forces are computed considering the solution of equation of motion for the overlap between the particles during the contact. The dynamic systems can be modeled as linear or nonlinear mass-spring-damper. In the present work we derive two new approximate relations for determining the damping coefficient and duration of contact for a specific non-linear soft-sphere contact model where the contact force is continuous at the start and end of the contact. The proposed relations are applied in three different problems: single freely falling particle, 3D bubbling fluidized bed and 3D hopper. All results are obtained using the MFIX computational code and are compared with literature data showing good agreement. In these simulations, when we compare the nonlinear contact force models, the proposed approximate relations reduced the computational time. This behavior is caused because the proposed contact model simulates better the contact process between particles. [ABSTRACT FROM AUTHOR]

Published

2016

20. Probabilistic routing algorithm based on contact duration and message redundancy in delay tolerant network.

Author

Yu, Chen, Tu, Zhongqiu, Yao, Dezhong, Lu, Feng, and Jin, Hai

Subjects

*WIRELESS sensor networks, *DELAY-tolerant networks, *ROUTING algorithms, *COMPUTER network architectures, *PROBABILITY theory, *COMPUTER simulation

Abstract

The Delay Tolerant Network (DTN) is a novel Wireless Sensor Network architecture for an opportunistic network environment, in which environment end-to-end connection cannot be set up constantly between source and destination nodes pairs. In this paper, we have proposed a novel routing algorithm based on a hybrid of message delivery probability and message redundancy to reduce the communication overhead while keeping the high message delivery ratio. In this algorithm, the message delivery probability is calculated by the combined impact of meeting frequency and length of contact duration. Further, the maximum number of copies of the message is designated in the source node, and the forwarding task of message copies is assigned to relay nodes based on the pattern of a binary tree, so that multi-path parallel transmission can be implemented on message forwarding. Simulated results showed that the proposed routing algorithm can achieve a higher efficiency of message delivery than the related existing routing algorithms and it can also reduce the communication overhead significantly in general DTNs. Copyright © 2015 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2016

21. Measurements of tsunami-borne debris impact on structures using an embedded accelerometer.

Author

Shafiei, Seyedreza, Melville, Bruce W., Shamseldin, Asaad Y., Beskhyroun, Sherif, and Adams, Keith N.

Subjects

*TSUNAMIS, *MARINE debris, *BUILDINGS, *ACCELEROMETERS, *VELOCITY

Abstract

This paper presents new experimental techniques utilizing a smart debris device for direct measurement of the impact acceleration forces associated with tsunami-borne debris that impact inland structures. The resulting experimental data will lead to advanced predictive capabilities of such forces for use in design guidelines. The measured debris acceleration data were used to calculate impact forces (mass × acceleration). An image processing technique was used to detect the debris impact angle. The debris impact tests were conducted using a disc-shaped smart debris device with masses of 550, 800 and 1000 g. For calculation of the debris force it was found necessary to include the mass of entrained water. The impact acceleration was found to be a function of debris mass, velocity, and contact duration. An equation is developed to allow estimation of the debris velocity for a known distance between the debris pick-up location by a tsunami and the structure. [ABSTRACT FROM PUBLISHER]

Published

2016

22. Contact Duration Aware Data Replication in DTNs with Licensed and Unlicensed Spectrum.

Author

Zhao, Jing, Zhuo, Xuejun, Li, Qinghua, Gao, Wei, and Cao, Guohong

Subjects

POCKET computers, MOBILE computing, DATA replication, COGNITIVE radio, DATA transmission systems

Abstract

The recent popularization of hand-held mobile devices, such as smartphones, enables the inter-connectivity among mobile users without the support of Internet infrastructure. When mobile users move and contact each other opportunistically, they form a delay tolerant network (DTN), which can be exploited to share data among them. Data replication is one of the common techniques for such data sharing. However, the unstable network topology and limited contact duration in DTNs make it difficult to directly apply traditional data replication schemes. In this paper, we recognize the deficiency of existing data replication schemes which treat the complete data item as the replication unit, and propose to replicate data at the packet level using erasure coding techniques. Our study consists of two cases based on the operating spectrum: unlicensed spectrum and licensed spectrum. For both cases, we analytically formulate the data replication problem as a mixed integer programming problem and propose a practical algorithm which operates in a fully distributed manner. Extensive simulations on both synthetic and realistic traces show that our scheme outperforms other existing replication schemes in terms of successful data retrieval probability in various scenarios. [ABSTRACT FROM PUBLISHER]

Published

2016

23. An experimental investigation on the effect of steel reinforcement on impact response of reinforced concrete plates.

Author

Othman, H. and Marzouk, H.

Subjects

*STEEL, *REINFORCED concrete, *HIGH strength concrete, *STRUCTURAL plates, *CONTACT mechanics, *MECHANICAL loads

Abstract

An experimental investigation has been conducted to collect fundamental data and to develop more understanding of the effect of steel reinforcement distribution on the dynamic response of reinforced concrete plates. Five high strength concrete (HSC) plates are tested using free-fall low-velocity impact technique. A total of 10 impact tests are conducted, including two tests on each specimen. The impact loads are applied at the mid-point of the HSC plates by dropping a 475 kg steel weight from a constant height of 4.15 m. Two parameters are investigated namely: the main bottom steel reinforcement ratio (1.0, 2.0, and 3.0%); and the steel reinforcement arrangement (single or doubly reinforced plates). The top reinforcement of all doubly reinforced plates is kept constant as shrinkage reinforcement of 10 mm diameter spaced at 210 mm. The experimental results are evaluated focusing on the impact force characteristics and the impact behaviors of reinforced concrete plates. The test program was successful in providing a simple method for validating impact test setup using impulse–momentum theorem. Results showed that the change of reinforcement ratio and/or reinforcement arrangement has no significant effect on impulse and absorbed energy values for same impact loading condition. Additionally crack pattern and failure mode are found to be more dependent on the reinforcement arrangement rather than reinforcement ratio. [ABSTRACT FROM AUTHOR]

Published

2016

24. The impact of road roughness on the duration of contact between a vehicle wheel and road surface

Author

Vidas Žuraulis, Loreta Levulytė, and Edgar Sokolovskij

Subjects

road pavement roughness, IRI, suspension displacement, vertical acceleration, wheel motion, contact duration, Transportation engineering, TA1001-1280

Abstract

The paper analyses the impact of the road micro-profile on the duration and the type of the vehicle wheel contact with the road surface driving at different speed. The selected vehicle bicycle model describes vertical displacements of front and rear wheels and their suspension as well as the impact of the vehicle body motion and longitudinal oscillation. International Roughness Index (IRI) and micro-profile irregularities of the road section analysed in the paper were identified using specialized road testing equipment. The experimental investigations measuring the vehicle suspension displacement and the body acceleration were carried out. Frequency characteristics of suspension motion and regularities of vertical movement of the wheel were identified after dividing the investigated road section according to driving modes. The analysis into the wheel contact with the road surface and identified correlations enable to determine the vehicle stability on selected quality roads.

Published

2014

25. Off-center impact of an elastic column by a rigid mass.

Author

Rezvanian, M., Baghestani, A.M., Pazhooh, M. Danesh, and Fariborz, S.J.

Subjects

*IMPACT (Mechanics), *ELASTICITY, *TIMOSHENKO beam theory, *DISPLACEMENT (Mechanics), *NONLINEAR equations, *HAMILTON'S equations

Abstract

Based on the Timoshenko beam model the equations of motion are obtained for large deflection of off-center impact of a column by a rigid mass via Hamilton's principle. These are a set of coupled nonlinear partial differential equations. The Newmark time integration scheme and differential quadrature method are employed to convert the equations into a set of nonlinear algebraic equations for displacement components. The equations are solved numerically and the effects of weight and velocity of the rigid mass and also off-center distance on deformation of the column are studied. [ABSTRACT FROM AUTHOR]

Published

2015

26. Improving network performance with affinity based mobility model in opportunistic network.

Author

Batabyal, Suvadip and Bhaumik, Parama

Abstract

Opportunistic network is a type of Delay Tolerant Network which is characterized by intermittent connectivity amongst the nodes and communication largely depends upon the mobility of the participating nodes. The network being highly dynamic, traditional MANET protocols cannot be applied and the nodes must adhere to store-carry-forward mechanism. Nodes do not have the information about the network topology, number of participating nodes and the location of the destination node. Hence, message transfer reliability largely depends upon the mobility pattern of the nodes. In this paper we have tried to find the impact of RWP (Random Waypoint) mobility on packet delivery ratio. We estimate mobility factors like number of node encounters, contact duration(link time) and inter-contact time which in turn depends upon parameters like playfield area (total network area), number of nodes, node velocity, bit-rate and RF range of the nodes. We also propose a restricted form of RWP mobility model, called the affinity based mobility model. The network scenario consists of a source and a destination node that are located at two extreme corners of the square playfield (to keep a maximum distance between them) and exchange data packets with the aid of mobile ‘helper’ nodes. The source node and the destination node are static. The mobile nodes only help in relaying the message. We prove how affinity based mobility model helps in augmenting the network reliability thereby increasing the message delivery ratio and reduce message delivery latency. [ABSTRACT FROM PUBLISHER]

Published

2012

27. The impact of road roughness on the duration of contact between a vehicle wheel and road surface.

Author

Žuraulis, Vidas, Levulytė, Loreta, and Sokolovskij, Edgar

Subjects

*SURFACE roughness, *ROAD construction, *PAVEMENTS, *ROAD maintenance, *TRAFFIC engineering, *OSCILLATIONS

Abstract

The paper analyses the impact of the road micro-profile on the duration and the type of the vehicle wheel contact with the road surface driving at different speed. The selected vehicle bicycle model describes vertical displacements of front and rear wheels and their suspension as well as the impact of the vehicle body motion and longitudinal oscillation. International Roughness Index (IRI) and micro-profile irregularities of the road section analysed in the paper were identified using specialized road testing equipment. The experimental investigations measuring the vehicle suspension displacement and the body acceleration were carried out. Frequency characteristics of suspension motion and regularities of vertical movement of the wheel were identified after dividing the investigated road section according to driving modes. The analysis into the wheel contact with the road surface and identified correlations enable to determine the vehicle stability on selected quality roads. [ABSTRACT FROM AUTHOR]

Published

2014

28. Tribological evaluation of hydrogenated DLC in Diesel lubricated model test.

Author

Djoufack, M.H., May, U., Bagcivan, N., Broegelmann, T., and Bobzin, K.

Subjects

*TRIBOLOGY, *DIAMOND-like carbon, *HYDROGENATION, *LUBRICATION & lubricants, *DIESEL fuels, *STEEL, *MECHANICAL wear testing

Abstract

In this paper, the wear behaviour of hydrogenated diamond like-carbon (DLC) in DLC/steel tribological contact in the skewed cylinders model test under Diesel lubrication was investigated. Standard Diesel EN590 (according to the European norm) was used as a lubricant. The considered DLC was the hydrogenated amorphous (a-C:H, called DLC), deposited on 100Cr6 steel substrates. The effects of load, contact duration, temperature and speed on DLC and steel tribological behaviours in the skewed cylinders model test were investigated. It was experimentally seen that the DLC wear rate increases with increasing sliding distance, contact pressure and temperature. The wear rate of the 100Cr6 counterbody was observed to be independent of the test conditions. Furthermore, the DLC wear rate was found to be higher than that of the 100Cr6 steel counterbody, especially at a high temperature and/or load. This observation is valid only in the case of DLC/100Cr6 tribological contact. The DLC wear was observed to be driven by the graphitisation of the outermost layer, whereas the wear behaviour of the counterbody was dominated by the formation of a tribological induced layer. Based on the mechanism responsible for the DLC wear, a physical motivated new wear law was developed and proposed. This law allows to predict the wear volume as a function of pressure, temperature and contact duration. [ABSTRACT FROM AUTHOR]

Published

2014

29. ASSESSING THE CONTACT DURATION AND VELOCITY FOR POTATO TUBERS IN CORRELATION WITH THE IMPACT ENERGY.

Author

DĂNILĂ, Daniel Mihai

Subjects

*POTATOES, *HARVESTING, *TUBERS, *CULTIVARS, *COMPUTERS in agriculture, *STATISTICAL correlation

Abstract

This paper is focused on using a computer controlled pendulum to asses the potato impact in harvesting and handling operations. The computer controlled pendulum method is an adequate tool for studying the influence of three impact energies to contact duration and contact velocity, during impact between the pendulum impact body and the potato tubers from Dacia variety. [ABSTRACT FROM AUTHOR]

Published

2014

30. Temporal variation of contact networks in granular materials.

Author

Hanley, Kevin, Huang, Xin, O'Sullivan, Catherine, and Kwok, Fiona

Subjects

*GRANULAR materials, *DISCRETE element method, *CENTROID, *ANISOTROPY, *AXIAL stresses, *STRONG interactions (Nuclear physics), *POLYDISPERSE media

Abstract

For analogue granular materials simulated using DEM, contact networks are often drawn by joining the centroids of contacting particles. Although a limited amount of research has been done to characterise the temporal aspects of such contact networks at a micro-scale, many simple questions regarding the duration of contacts in evolving granular systems remain unanswered. This paper addresses this gap in the existing knowledge by using the open-source code LAMMPS to run and analyse nine (3D) triaxial simulations of 20,164 polydisperse spherical particles. Contacts which exist for a long duration are preferentially oriented in the direction of the major principal stress while the fabric anisotropy for contacts with a given duration increases with duration. Regardless of simulation conditions, there is a linear relationship between the percentage of contacts present for a given duration and contact duration, despite the non-linear overall behaviour of the material. The forces transmitted by contacts increase, on average, with increasing duration. The total number of unique contacts which appear during triaxial compression increases linearly after 10 % axial strain, although the number of contacts, both total and subdivided into strong and weak force subnetworks, remains quite stable. The majority of contacts in these evolving granular systems, even those participating in strong force chains, are formed and lost repeatedly. [ABSTRACT FROM AUTHOR]

Published

2014

31. A link contact duration-based routing protocol in delay-tolerant networks.

Author

Jung, Kyoung-Hak, Lim, Wan-Seon, Jeong, Jae-Pil, and Suh, Young-Joo

Subjects

*TELECOMMUNICATION systems routing, *DELAY-tolerant networks, *RESEARCH, *INTERNET, *WIRELESS communications

Abstract

Delay Tolerant Networks (DTNs) provide message delivery services to users via intermittently connected nodes. In DTNs, routing is one of the most challenging issues since end-to-end connectivity between nodes may not be available most of the time. Although many routing protocols for DTNs have been proposed, they do not achieve satisfactory performance, since they exploit only some of the network characteristics. In this paper, we present a new DTN routing protocol, called the Link Contact Duration-based Routing Protocol (LCD). Like existing protocols, LCD uses the disconnect duration of a link between two nodes to find the routing path with the shortest end-to-end delay. In addition, LCD uses the contact duration of a link and the number of buffered messages to deliver as many messages as possible in a short time. Our simulation results show that LCD has better performance than existing DTN routing protocols. [ABSTRACT FROM AUTHOR]

Published

2013

32. Exponential and Power Law Distribution of Contact Duration in Urban Vehicular Ad Hoc Networks.

Author

Li, Yong, Jin, Depeng, Wang, Zhaocheng, Zeng, Lieguang, and Chen, Sheng

Subjects

POWER law (Mathematics), VEHICULAR ad hoc networks, EXPONENTIAL functions

Abstract

Contact duration between moving vehicles is one of the key metrics in vehicular ad hoc networks (VANETs), that critically influences the design of routing schemes and network throughput. Due to prohibitive costs to collect enough realistic contact records, little experimental work has been conducted to study the contact duration in urban VANETs. In this work, we carry out an extensive experiment involving tens of thousands of operational taxis in Beijing city. Based on studying this newly collected Beijing trace and the existing Shanghai trace, we find an invariant characteristic that there exists a characteristic time point, up to which the contact duration obeys an exponential distribution that includes at least 80% of the whole distribution, while beyond which it decays as a power law one. This property is in sharp contrast to the recent empirical data studies based on human mobility, where the contact duration exhibits a power law distribution. Our observations thus provide fundamental guidelines for the design of new urban VANETs' routing protocols and their performance evaluation. [ABSTRACT FROM AUTHOR]

Published

2013

33. Frequency and duration of contacts between free-ranging raccoons: uncovering a hidden social system.

Author

Prange, Suzanne, Gehrt, Stanley D., and Hauver, Stephanie

Subjects

*RACCOON, *CARNIVORA, *FISSION (Asexual reproduction), *PROCYON (Genus), *FRESHWATER animals

Abstract

Raccoons (Procyon lotor), like most carnivores, are nocturnal and secretive and consequently difficult to observe. We used proximity-detecting collars to determine effects of sex, age, and season on contact rate and duration; document patterns of seasonal contact rates by dyad type and determine whether patterns were random; identify dyads that exhibited contact rates significantly greater than expected and document the persistence of these positive associations across seasons; and document frequency of den sharing as an additional measure of positive associations at an urban study site with a high-density raccoon population. Contact rate and duration were affected by dyad type, season, and their interaction. Male--male (MM) dyads exhibited higher contact values than male--female (MF) or female--female (FF) dyads, and contact parameters were greater during winter and spring than summer and autumn. Contact parameters for MM and FF dyads were not affected by age of dyad members, whereas those of MF dyads were affected by age and its interaction with season. MF dyads with older individuals exhibited greater contact parameters, and this effect was greatest during winter. For all dyad types and seasons, except FF dyads during winter, observed distributions of contact rates differed from expected. Males formed groups, with most positively associated dyads persisting across seasons, and females were associated almost exclusively with members of only 1 male group. Some positively associated MF dyads occurred during autumn and continued through spring. Positively associated FF dyads occurred at a lower rate and were ephemeral, seldom lasting more than 1 season. FF and MF dyads exhibited a greater proportion of low-frequency contacts with conspecifics than expected during all seasons, except winter, which may function to maintain amicable relationships between neighbors or reinforce dominance hierarchies and create a framework for more complex social behaviors. Raccoons appear to live in a fission--fusion society, with many short-term acquaintances and a few long-term associations. [ABSTRACT FROM AUTHOR]

Published

2011

34. Modification of the spherical particle spring-damping contact model from contact velocity dependent restitution coefficients.

Author

Lai, C.C., Huang, A.N., Chen, C.Y., Hsu, W.Y., Seville, J.P.K., and Kuo, H.P.

Subjects

*COEFFICIENT of restitution, *DISCRETE element method, *GRANULAR flow, *VELOCITY, *LANDAU damping, *CONTACT mechanics

Abstract

The most common granular flow Discrete Element Method (DEM) simulation contact model is the spring-damping model, which typically uses constant restitution coefficients to estimate the model damping coefficient. The predicted rebound velocities are thus pre-determined by the ad hoc restitution coefficient setting. Considering the fact that the coefficient of restitution is contact velocity-dependent and event driven, we advance the spring-damping model using three contact velocity-dependent restitution coefficient approaches. We show that the spring-damping model using a new restitution coefficient approach derived from the model of Walton & Braun (1986) gives good rebound velocity predictions over a range of contact velocities for four spherical particles of different hardness. [Display omitted] • Show the limits of the popular spring-damping model from contact mechanics. • Evaluate the spurious contact forces at the beginning or the end of the contact. • Modify the spring-damping model by velocity dependent restitution coefficients. • Validate the predicted rebound velocities before and after modifications. [ABSTRACT FROM AUTHOR]

Published

2022

35. ACOUSTIC EMISSION FROM IMPACTS OF RIGID BODIES.

Author

PETERSEN, TATIANA B.

Abstract

The characteristics of stress waves accompanying the collisions of rigid bodies are investigated. It is shown that high-frequency transducer of acoustic emission apparatus transforms initial impact perturbation into two separate signals, arriving with delay equal to impact duration. AE signals are generated at the moments corresponding to discontinuities of the derivative of surface displacement function of impacting bodies; i.e., at the initial moment of loading and the final moment of contact. It is shown experimentally that different Lamb modes recorded in the far-field zone of the impact source contain double signals arriving with the same delay as the signals in the near-field zone. The relationship between the AE waveform and the impact parameters determined in the study enables one to estimate physical characteristics of impact, such as surface displacement, contact time and impact force. Practical significance of these findings for evaluation of structural integrity is discussed. [ABSTRACT FROM AUTHOR]

Published

2009

36. Use, misuse and extensions of “ideal gas” models of animal encounter.

Author

Hutchinson, John M. C. and Waser, Peter M.

Subjects

*ANIMALS, *AVOIDANCE (Psychology), *ANIMAL population density, *ANIMAL mechanics, *ANIMAL behavior

Abstract

Biologists have repeatedly rediscovered classical models from physics predicting collision rates in an ideal gas. These models, and their two-dimensional analogues, have been used to predict rates and durations of encounters among animals or social groups that move randomly and independently, given population density, velocity, and distance at which an encounter occurs. They have helped to separate cases of mixed-species association based on behavioural attraction from those that simply reflect high population densities, and to detect cases of attraction or avoidance among conspecifics. They have been used to estimate the impact of population density, speeds of movement and size on rates of encounter between members of the opposite sex, between gametes, between predators and prey, and between observers and the individuals that they are counting. One limitation of published models has been that they predict rates of encounter, but give no means of determining whether observations differ significantly from predictions. Another uncertainty is the robustness of the predictions when animal movements deviate from the model’s assumptions in specific, biologically relevant ways. Here, we review applications of the ideal gas model, derive extensions of the model to cover some more realistic movement patterns, correct several errors that have arisen in the literature, and show how to generate confidence limits for expected rates of encounter among independently moving individuals. We illustrate these results using data from mangabey monkeys originally used along with the ideal gas model to argue that groups avoid each other. Although agent-based simulations provide a more flexible alternative approach, the ideal gas model remains both a valuable null model and a useful, less onerous, approximation to biological reality. [ABSTRACT FROM AUTHOR]

Published

2007

37. Frictional heat problem and its evolution. Part 1. Blok model and its improvement.

Author

Gurskii, B. and Chichinadze, A.

Abstract

The paper reviews the main stages of the formulation, development, and improvement of the frictional heat problem. At present its evolution enables to proceed from problems for a local contact spot to problems for specific full-sized friction units. Features of the consideration of some basic parameters when formulating and solving analytically the frictional heat problem for tooth gears are discussed and the real values of the essential parameters are specified. These parameters are the contact duration factor, the temperature flash duration, and the real temperatures capable of inducing structural and phase transformations in surface and subsurface layers of the mated parts. [ABSTRACT FROM AUTHOR]

Published

2007

38. Characteristics of temporal-spatial parameters in quasi-solid-fluid phase transition of granular materials.

Author

Ji Shunying and Hayley, Shen H.

Subjects

*GRANULAR materials, *PHASE transitions, *STRAINS & stresses (Mechanics), *MICROMECHANICS, *SOLID state physics

Abstract

The quasi-solid-fluid phase transition of granular materials is closely related to the shear rate and solid concentration in addition to their intrinsic properties. The contact duration and the coordination number are two important temporal-spatial parameters to describe the granular interaction in phase transition. In this study, characteristics of the contact duration and the coordination number associated with the transition processes are determined using a 3D discrete element model under different shear rates and concentrations. The resulting macroscopic stress and strain-rate relations are discussed. The temporal and spatial parameters provide a linkage between the macroscopic constitutive law and inter- particle micromechanics. [ABSTRACT FROM AUTHOR]

Published

2006

39. Collisional cooling with multi-particle interactions.

Author

Luding, Stefan and Goldshtein, Alexander

Subjects

*KINETIC theory of matter, *COOLING, *PARTICLES, *HYDRODYNAMICS, *FLUID dynamics, *HEAT radiation & absorption

Abstract

An extension to kinetic theory and hydrodynamic models is proposed that accounts for the existence of multi-particle contacts and leads to a correction of the cooling rate. The other hydrodynamic terms remain unchanged. In the presence of multi-particle contacts a class of different models leads to deviations from the classical inelastic hard sphere (IHS) results. For the homogeneous cooling state (HCS), as examined here, the theoretical results are found to be in perfect agreement with the numerical simulations. [ABSTRACT FROM AUTHOR]

Published

2003

40. General and mixed linear regressions to estimate inter-contact times and contact duration in opportunistic networks.

Author

Borrego, Carlos, Hernández-Orallo, Enrique, and Magaia, Naercio

Subjects

REGRESSION analysis, ROUTING algorithms, BOX-Jenkins forecasting

Abstract

In the context of Opportunistic Networking (OppNet), routing and delivery algorithms used for content dissemination employ different metrics to perform accurate decisions. It has been shown that of these metrics, the inter-contact time and the contact duration are very useful for characterising OppNet scenarios. In this article, we show that the exponential moving averages of the historical values of these metrics are correlated with future observed values, in addition to also being good estimators for them. Moreover, we go a step further to investigate how to locally, from the OppNet node perspective, improve the estimations for these metrics by defining two novel estimation functions. These estimation functions are based on two different linear models: a general regression model and a mixed regression model, where future values of the studied metrics are explained in terms of their corresponding exponential moving averages. Experimentation using real mobility traces from well-known OppNet scenarios show that our estimation functions greatly reduce the estimation error of the future values of both metrics when compared to representative state of the art proposals. [ABSTRACT FROM AUTHOR]

Published

2019

41. Transfer efficiencies of pesticides from household flooring surfaces to foods

Author

Rohrer, Cynthia A, Hieber, Thomas E, Melnyk, Lisa J, and Berry, Maurice R

Published

2003

42. Cd226−/− natural killer cells fail to establish stable contacts with cancer cells and show impaired control of tumor metastasis in vivo.

Author

Kim, Ji Sung, Shin, Bo Ram, Lee, Hong Kyung, Lee, Jae Hee, Kim, Ki Hun, Choi, Jeong Eun, Ji, A Young, Hong, Jin Tae, Kim, Youngsoo, and Han, Sang-Bae

Subjects

*CANCER cells, *METASTASIS, *KILLER cells

Abstract

CD226 is an activating receptor expressed on natural killer (NK) cells, CD8+T cells, and other immune cells. Upon binding to its ligands expressed on target cells, CD226 activates intracellular signaling that triggers cytokine production and degranulation in NK cells. However, the role of CD226 in contact dynamics between NK and cancer cells has remained unclear. Our time-lapse images showed that individual wild-type CD226+NK cells contacted B16F10 melanoma cells for 23.7 min, butCd226−/−NK cells only for 12.8 min, although both NK cell subsets showed equal contact frequency over 4 h. On the surface of B16F10 cells, CD226+cells stayed at the same site with oscillating movement (named stable contact), whileCd226−/−NK cells moved around at a velocity of 4 μm/min (named unstable contact). Consequently,Cd226−/−NK cells did not kill B16F10 cellsin vitroand did not inhibit their metastasis into the lungin vivo. Taken together, our data demonstrate that CD226 enables prolonged stable interaction between NK and cancer cells, which is needed for efficient killing of cancer cells. [ABSTRACT FROM AUTHOR]

Published

2017