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排序方式: 共有62条查询结果,搜索用时 31 毫秒
1.
Akshay Atwe Ankur Gupta Rishi Kant Mainak Das Ishan Sharma Shantanu Bhattacharya 《Microsystem Technologies》2014,20(7):1373-1381
We report a novel pH-sensitive hydrogel based micro-valve for metered flow that has applications in a laboratory made “Intelligent valving system”. The hydrogel solution was prepared through Chitosan and poly vinyl alcohol in acetic acid and crystallized using gluteraldehyde as the crosslinking agent in the form of thin wafers and it was found to be very sensitive to pH changes. The pore structure of hydrogel was investigated through Field Emission Scanning Electron Microscopy and thin wafers of the gel were physically placed inside PDMS microchannels. Flow metering in these channels was observed by controlled expansion of the hydrogel plug till complete valving was realized. This valving device was further precisely characterized with micro Particle Image Velocimetry using a solution containing fluorescent polymeric micro beads. The principle advantage of this hydrogel device is the smaller range of pH (varying between pH 3 and 7) over which the valving response is observed. 相似文献
2.
Wenjing Wang Shameek Bhattacharjee Mainak Chatterjee Kevin Kwiat 《Pervasive and Mobile Computing》2013,9(4):572-587
In cognitive radio networks, cognitive nodes operate on a common pool of spectrum where they opportunistically access and use parts of the spectrum not being used by others. Though cooperation among nodes is desirable for efficient network operations and performance, there might be some malicious nodes whose objective could be to hinder communications and disrupt network operations. The absence of a central authority or any policy enforcement mechanism makes these kinds of open-access network more vulnerable and susceptible to attacks.In this paper, we analyze a common form of denial-of-service attack, i.e., collaborative jamming. We consider a network in which a group of jammers tries to jam the channels being used by legitimate users who in turn try to evade the jammed channels. First, we compute the distribution of the jamming signal that a node experiences by considering a random deployment of jammers. Then, we propose different jamming and defending schemes that are employed by the jammers and legitimate users, respectively. In particular, we model and analyze the channel availability when the legitimate users randomly choose available channels and the jammers jam different channels randomly. We propose a multi-tier proxy-based cooperative defense strategy to exploit the temporal and spatial diversity for the legitimate secondary users in an infrastructure-based centralized cognitive radio network. Illustrative results on spectrum availability rates show how to improve resiliency in cognitive radio networks in the presence of jammers. 相似文献
3.
Though the network quality-of-service (QoS) metrics are defined in terms of technical parameters (e.g., delay, jitter, bandwidth), they are rather subjective when it comes to the end user. Oftentimes, the end user finds it difficult to express his desired QoS in such technical parameters, though he has a fair idea of what QoS he desires. In this paper, we show how translation functions can be devised and used to translate the user inputs to networking parameters that are used by various layers of the protocol stack. In particular, we consider an ad hoc network and show an interface design that uses translation functions to map user supplied inputs to parameters at the medium access control (MAC) and routing layers. These parameters, in turn, choose the right strategies that particular layer functionality can adopt, such that the QoS desired by the user is achieved. We also compute the associated costs due to the different strategies adopted. We implement the interface on ns-2 and conduct simulation experiments with randomly scattered IEEE 802.11 enabled nodes. Results show the functionality of the interface and demonstrate how delay, throughput, and network lifetime are affected when the end user seeks different levels of QoS. 相似文献
4.
We consider a parallel (1-out-of-n:G) system of n components with constant failure rates and treat three different classes of component testing procedures all of which guarantee that the given consumer and producer risks are not exceeded. It is necessary to impose certain restrictions on the magnitude of the unknown failure rates for guaranteeing the producer risk. The three classes of component test procedures use Type-I censoring and use decision rules based on: A) the total number of component failures during the testing periods, B) the number of failures for each individual component, and C) the maximum likelihood estimate of system reliability. Based on the requirement that both the consumer and producer risks lie within specified levels, class A plans exhibit lower testing costs in the selected numerical examples. 相似文献
5.
Mainak Majumder Clint Rendall Michelle Li Natnael Behabtu J. Alexander Eukel Robert H. Hauge Howard K. Schmidt Matteo Pasquali 《Chemical engineering science》2010,65(6):2000-2008
Spray coating is a scalable and high-throughput process for fabrication of transparent and conducting coatings (TCCs) composed of single-walled carbon nanotubes (SWNTs). Presently the fundamentals of this process are not well understood. We show that suppression of coalescence of spray droplets by sufficiently rapid heat- and mass-transfer yields homogeneous SWNT films by preventing the formation of ‘coffee stains’ of larger length scale. Such heat and mass transfer is driven by differential evaporation between the top and edges of the drops, whereas thermal and compositional effects on surface tension and buoyancy are weak. Ultrasonic spraying ensures that the droplets are deposited without significant splashing, and delayed splashing at higher Weber number is evidenced. We find that the performance of spray-coated TCCs made from HiPCO SWNTs is limited by bundle diameter rather than length of the constituent SWNTs and bundes. Vapor acid doping with concentrated sulfuric acid roughly doubles the conductivity of the TCCs. 相似文献
6.
Wound healing is a series of different dynamic and complex phenomena. Many studies have been carried out based on the type and severity of wounds. However, to recover wounds faster there are no suitable drugs available, which are highly stable, less expensive as well as has no side effects. Nanomaterials have been proven to be the most promising agent for faster wound healing among all the other wound healing materials. This review briefly discusses the recent developments of wound healing by nanotechnology, their applicability and advantages. Nanomaterials have unique physicochemical, optical, and biological properties. Some of them can be directly applied for wound healing or some of them can be incorporated into scaffolds to create hydrogel matrix or nanocomposites, which promote wound healing through their antimicrobial, as well as selective anti‐ and pro‐inflammatory, and proangiogenic properties. Owing to their high surface area to volume ratio, nanomaterials have not only been used for drug delivery vectors but also can affect wound healing by influencing collagen deposition and realignment and provide approaches for skin tissue regeneration.Inspec keywords: skin, wounds, cellular biophysics, drug delivery systems, tissue engineering, hydrogels, nanocomposites, proteins, nanomedicineOther keywords: wound healing materials, nanomaterials, nanotechnology, proangiogenic properties, proinflammatory properties, collagen deposition, drug delivery vectors, skin tissue regeneration 相似文献
7.
Some Bayes estimates are obtained of an index of performance of a system that alternates between two states, up or down, in accordance with a Markov process. The index considered is long-run availability, which measures the probability that the system will be up when needed. For the purpose of obtaining these estimates, two types of observations are considered: those that reveal only the state of system at isolated time points and those that continuously record the duration of the up and down times of the system. 相似文献
8.
Optimal power control is of great importance for CDMA systems and it can be controlled to provide the desired quality of service
(QoS) to mobile hosts in a cellular radio system. The power levels of all the mobile hosts are determined and constantly tuned
in order to achieve the required SINR (signal to interference and noise ratio) which changes dynamically. The SINR of all
the K mobiles in a cell can be expressed in the form of a k-dimensional vector. It helps determine the operating point of the system and hence it is constantly monitored and updated
due to the variability in the wireless channel conditions and user mobility. We view this continuously changing vector as
the motion of a point in a higher dimensional Euclidean space, called the QoS space. We apply vector quantization technique to shrink the infinite-point space to a finite-point space by partitioning the former
into N regions such that the points within a region reflect almost similar system performance and are identified by what we call
a QoS index. We show how the system operating point can be mapped to one of the QoS indices. The location of the point or the region
of operability in the QoS space conveys the system status in terms of the current load and the QoS being delivered. The dynamism
in the system's input conditions due to wireless link characteristics and user mobility acts like an opposing force against
which the system has to operate. The system reacts to all such changes preventing it from going into a region with an undesirable
QoS index. We show how the apriori knowledge of the operating region helps in decision making pertaining to call admission
and resource allocation in CDMA systems.
Mainak Chatterjee received his Ph.D. from the department of Computer Science and Engineering at the University of Texas at Arlington in 2002.
Prior to that, he completed his B.Sc. with Physics (Hons) from the University of Calcutta in 1994 and M.E. in Electrical Communication
Engineering from the Indian Institute of Science, Bangalore. He is currently an Assistant Professor in the department of Electrical
and Computer Engineering at the University of Central Florida. His research interests include resource management and quality-of-service
provisioning in wireless and cellular networks, sensor networks, CDMA data networking, media access control protocols, Internet
traffic, and applied game theory.
Sajal K. Das is a Professor of Computer Science and Engineering and also the Founding Director of the Center for Research in Wireless
Mobility and Networking (CReWMaN) at the University of Texas at Arlington (UTA). His current research interests include resource
and mobility management in wireless networks, mobile and pervasive computing, wireless multimedia and QoS provisioning, sensor
networks, mobile Internet protocols, distributed processing and grid computing. He has published over 250 research papers,
directed numerous funded projects, and holds 5 US patents in wireless mobile networks. He received the Best Paper Awards in
ACM MobiCom'99, ICOIN-2001, ACM MSWIM-2000, and ACM/IEEE PADS'97. Dr. Das is also a recipeint of UTA's Outstanding Faculty
Research Award in Computer Science in 2001 and 2003, and UTA's College of Engineering Excellence in Research Award in 2003.
He serves on the Editorial Boards of IEEE Transactions on Mobile Computing, ACM/Kluwer Wireless Networks, Parallel Processing
Letters, Journal of Parallel Algorithms and Applications. He served as General Chair of IEEE PerCom-2004, CIT-2003 and IEEE
MASCOTS-2002; General Vice Chair of IEEE PerCom-2003, ACM MobiCom-2000 and HiPC 2000-01; General Chair of ACM WoWMoM 2000-02;
Program Chair of IWDC-2002, WoWMoM 1998-99; TPC Vice Chair of ICPADS-2002; and as TPC member of numerous IEEE and ACM conferences.
He is the Vice Chair of IEEE TCPP and TCCC. Prior to 1999, Dr. Das was a professor of computer science at Univeristy of North
Texas where he twice (1991 and 1997) received the Student Association's Honor Professor Award for best teaching and scholarly
research. He received B.Tech. degree in 1983 from Calcutta University, M.S. degree in 1984 from Indian Institute of Science,
Bangalore, and PhD degree in 1988 from the University of Central Florida, Orlando, all in Computer Science. 相似文献
9.
Mainak?ChatterjeeEmail author Haitao?Lin Sajal?K.?Das 《Mobile Networks and Applications》2005,10(6):939-946
In this paper, we address the problem of user-class based service differentiation in CDMA networks. Users are categorized
into three classes who get differentiated services based on their expected quality of service (QoS) from the service provider
and the price they are willing to pay. We adopt a game theoretic approach for allocating resources through a two-step process.
During a service admission, resource distribution is determined for each class. Then, the resource allocated to each class
is distributed among the active users in that class. We devise a utility function for the providers which considers the expected
revenue and the probability of users leaving their service provider if they are not satisfied with the service. Our model
demonstrates how power can be controlled in a CDMA network to differentiate the service quality. Also, we show the impact
of admitting high paying users on other users.
Mainak Chatterjee received his Ph.D. from the department of Computer Science and Engineering at The University of Texas at Arlington in 2002.
Prior to that, he completed his B.Sc. with Physics (Hons) from the University of Calcutta in 1994 and M.E. in Electrical Communication
Engineering from the Indian Institute of Science, Bangalore, in 1998. He is currently an Assistant Professor in the department
of Electrical and Computer Engineering at the University of Central Florida. His research interests include economic issues
in wireless networks, applied game theory, resource management and quality-of-service provisioning, ad hoc and sensor networks,
CDMA data networking, and link layer protocols. He serves on the executive and technical program committee of several international
conferences.
Haitao Lin received the BE degree in radio engineering from Southeast University, Nanjing, China, in 1996, the MS degree in computer
applications from the Beijing University of Posts and Telecommunications, Beijing, China, in 2000, and Ph.D. in Computer Science
and Engineering from The University of Texas at Arlington in 2004. He is currently with Converged Multimedia Services System
Engineering at Nortel, Richardson, Texas. His research interests include wireless network performance evaluation and enhancement,
wireless link adaptation, wireless network resource management, and applied game theory.
Sajal K. Das received B.S. degree in 1983 from Calcutta University, M.S. degree in 1984 from Indian Institute of Science, Bangalore,
and Ph.D. degree in 1988 from University of Central Florida, Orlando, all in Computer Science. He is currently a Professor
of Computer Science and Engineering and also the Founding Director of the Center for Research in Wireless Mobility and Networking
(CReWMaN) at the University of Texas at Arlington (UTA). Prior to 1999, he was a professor of Computer Science at the University
of North Texas (UNT), Denton where he founded the Center for Research in Wireless Computing (CReW) in 1997, and also served
as the Director of the Center for Research in Parallel and Distributed Computing (CRPDC) during 1995–97. Dr. Das is a recipient
of the UNT Student Association's Honor Professor Award in 1991 and 1997 for best teaching and scholarly research; UNT's Developing
Scholars Award in 1996 for outstanding research; UTA's Outstanding Faculty Research Award in Computer Science in 2001 and
2003; and the UTA College of Engineering Research Excellence Award in 2003. He is also frequently invited as a keynote speaker
at international conferences and symposia.
Dr. Das' current research interests include mobile wireless communications, resource and mobility management in wireless networks,
mobile and pervasive computing, wireless multimedia, ad hoc and sensor networks, mobile internet architectures and protocols,
distributed and grid computing, performance modeling and simulation. He has published over 350 research papers in these areas
in international journals and conferences, directed numerous industry and government funded projects, and holds five US patents
in wireless mobile networks. He received four Best Paper Awards in the ACM MobiCom'99, ICOIN'01, ACM MSWiM'00, and ACM/IEEE
PADS'97. He as the Editor in Chief of the Pervasive and Mobile Computing (PMC) journal and also as an Associate Editor of
IEEE Transactions on Mobile Computing, ACM/Kluwer Wireless Networks, Parallel Processing Letters, Journal of Parallel, Distributed
and Emerging Systems. He served as General Chair of IEEE WoWMoM'05, PerCom'04, IWDC'04, MASCOTS'02, ACM WoWMoM'00-02; General
Vice Chair of IEEE PerCom'03, ACM MobiCom'00 and IEEE HiPC'00-01; Program Chair of IWDC'02, WoWMoM'98-99; TPC Vice Chair of
ICPADS'02; and as TPC member of numerous IEEE and ACM conferences. He is Vice Chair of the IEEE Computer Society's TCPP and
TCCC Executive Committees. 相似文献
10.
Tyagi PK Misra A Singh MK Titus E Misra DS Ghatak J Satyam PV Roy M 《Journal of nanoscience and nanotechnology》2005,5(4):596-600
Nickel nanorods with diameters ranging from 5 to 10 nm, encapsulated inside the carbon nanotubes, are prepared using microwave plasma chemical vapor deposition. High-resolution transmission electron microscopy (HRTEM) studies reveal the perfect crystalline nature of the rods with d-spacing closely matching the (111) interplanar spacing of Ni. The (111) planes of the Ni nanorods are always aligned at 39.6 degrees with respect to the graphite planes of the nanotubes. The cosine component of the d-spacing along the direction of the graphite planes is found to be 1.6 A; exactly half the d-spacing between the graphite planes. The electron diffraction pattern shows clear spots corresponding to Ni structure. The field cooled and zero field cooled magnetization data reveal the reversibility of the magnetization of the Ni nanorods and show a blocking temperature of 195 K, which correspond to energy barrier of 0.4 eV/(V). 相似文献