Sang H. Son mostly deals with Distributed computing, Wireless sensor network, Computer network, Scheduling and Real-time computing. His Distributed computing research integrates issues from Serializability, Quality of service, Dynamic priority scheduling, Fair-share scheduling and Concurrency control. His Wireless sensor network research is multidisciplinary, incorporating perspectives in Key distribution in wireless sensor networks, Wireless network, Data as a service, Middleware and Event.
His biological study spans a wide range of topics, including Wireless, Wireless ad hoc network and Dissemination. Sang H. Son interconnects Network topology, Web server, Adaptive architecture and Vehicular ad hoc network in the investigation of issues within Scheduling. Sang H. Son has researched Real-time computing in several fields, including Control system, Data mining, Topology control, Transmission and Pairwise comparison.
His main research concerns Distributed computing, Real-time computing, Database, Computer network and Scheduling. The concepts of his Distributed computing study are interwoven with issues in Serializability and Database transaction, Transaction processing, Concurrency control. The study of Real-time computing is intertwined with the study of Quality of service in a number of ways.
His studies in Database integrate themes in fields like Data as a service and Protocol. He works in the field of Computer network, focusing on Wireless sensor network in particular. His Scheduling research focuses on Dynamic priority scheduling and Earliest deadline first scheduling.
His primary scientific interests are in Computer network, Real-time computing, Vehicular ad hoc network, Artificial intelligence and Distributed computing. The various areas that Sang H. Son examines in his Computer network study include Wireless, Wireless ad hoc network and Throughput. His work carried out in the field of Real-time computing brings together such families of science as Unmanned ground vehicle, Accelerometer, Gyroscope, Smartwatch and Global Positioning System.
His research integrates issues of Dissemination, Scheduling, Upload and Intelligent transportation system in his study of Vehicular ad hoc network. His Scheduling study deals with Travel time intersecting with Simulation. His Distributed computing study combines topics in areas such as Telecommunications network, Distributed control system and Scalability.
His primary areas of investigation include Real-time computing, Vehicular ad hoc network, Distributed computing, Computer network and Simulation. His studies deal with areas such as Unmanned ground vehicle, Transmission, Gyroscope, Pairwise comparison and Global Positioning System as well as Real-time computing. His Vehicular ad hoc network research includes themes of Dissemination, Scheduling, Scalability and Upload.
His work in Scheduling tackles topics such as Software-defined networking which are related to areas like Greedy algorithm. His Distributed computing study integrates concerns from other disciplines, such as Wireless network, Temporal database, The Internet, Task and Edge computing. Sang H. Son works mostly in the field of Computer network, limiting it down to concerns involving Wireless ad hoc network and, occasionally, Hybrid system, Cellular traffic and Dedicated short-range communications.
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Feedback Control Real-Time Scheduling: Framework, Modeling, and Algorithms*
Chenyang Lu;John A. Stankovic;Gang Tao;Sang H. Son.
Real-time Systems (2001)
ATPC: Adaptive Transmission Power Control for Wireless Sensor Networks
Shan Lin;Fei Miao;Jingbin Zhang;Gang Zhou.
ACM Transactions on Sensor Networks (2016)
JAM: a jammed-area mapping service for sensor networks
A.D. Wood;J.A. Stankovic;S.H. Son.
real-time systems symposium (2003)
New strategies for assigning real-time tasks to multiprocessor systems
A. Burchard;J. Liebeherr;Yingfeng Oh;S.H. Son.
IEEE Transactions on Computers (1995)
EnviroTrack: towards an environmental computing paradigm for distributed sensor networks
T. Abdelzaher;B. Blum;Q. Cao;Y. Chen.
international conference on distributed computing systems (2004)
A feedback control approach for guaranteeing relative delays in Web servers
Chenyang Lu;T.F. Abdelzaber;J.A. Stankovic;S.H. Son.
real time technology and applications symposium (2001)
The case for feedback control real-time scheduling
J.A. Stankovic;Chenyang Lu;S.H. Son;Gang Tao.
euromicro conference on real time systems (1999)
Event detection services using data service middleware in distributed sensor networks
Shuoqi Li;Sang H. Son;John A. Stankovic.
information processing in sensor networks (2003)
Design and evaluation of a feedback control EDF scheduling algorithm
C. Lu;J.A. Stankovic;G. Tao;S.H. Son.
real time systems symposium (1999)
A real-time locking protocol
L. Sha;R. Rajkumar;S.H. Son;C.-H. Chang.
IEEE Transactions on Computers (1991)
Profile was last updated on December 6th, 2021.
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