CONTACT

Office:    T-508
Tel:       (212) 650-7199
Fax:      (212) 650-8249
E-mail: zheng at ee.ccny.cuny.edu

Address:

Department of Electrical Engineering
City College and Graduate School
The City University of New York
Convent Avenue at 140th Street
New York , NY 10031  

ARTICLES PUBLISHED IN BOOKS

1. J. Zheng, “Data transmission and beacon scheduling in low rate wireless mesh personal area networks,” Emerging Wireless LANs, Wireless PANs, and Wireless MANs, Wiley-Interscience, ISBN: 9780471720690, Chapter 15, 2008 [ pdf ]
2. J. Zheng and M. J. Lee, “A comprehensive performance study of IEEE 802.15.4,” Sensor Network Operations, IEEE Press, Wiley Interscience, ISBN 0-471-71976-5, Chapter 4, pp. 218-237, 2006. [ pdf ]

JOURNAL/MAGAZINE PUBLICATIONS

1. J. Zheng and M. J. Lee, “A resource-efficient and scalable wireless mesh routing protocol,” Special Issue of Elsevier Ad Hoc Networks Journal on Wireless Mesh Networks, Vol. 5, No. 6, pp. 704-718, Aug. 2007. (TDLS routing has been accepted as IEEE 802.15.5 standards) [ pdf ]
2. J. Zheng, J. Li, M. J. Lee, and M. Anshel, ”A lightweight encryption and authentication scheme for wireless sensor networks,” International Journal of Security and Networks , Vol. 1, No. 3/4, pp. 138-146, Dec. 2006. [ pdf ]
3. M. J. Lee, J. Zheng, X. Hu, H. Juan, C. Zhu, Y. Liu,   J. Yoon, and T. N. Saadawi, “A new taxonomy of routing algorithms for wireless mobile ad hoc networks: the component approach,” IEEE Communications Magazine, Vol. 44, No. 11, pp. 116-123, Nov. 2006. [ pdf ]
4. J. Zheng, M. J. Lee, and M. Anshel, “Toward secure low rate wireless personal area networks,” IEEE Transactions on Mobile Computing, Vol. 5,   No. 10,   pp. 1361-1373,   Oct.   2006. [ pdf ]
5. M. J. Lee, J. Zheng, Y.-B. Ko, and D. M. Shrestha, “Emerging Standards for Wireless Mesh Technology,” IEEE Wireless Communications, Vol. 13, No. 2, pp. 56-63, Apr. 2006. [ pdf ]
6. J. Zheng and M. J. Lee, “Will IEEE 802.15.4 make ubiquitous networking a reality? -- a discussion on a potential low power, low bit rate standard,” IEEE Communications Magazine, Vol. 42, No. 6, pp. 140-146, Jun. 2004. (#1 among the top 100 papers accessed in Feb. 2005 according to IEEE) [ pdf ]
7. M. Ü. Uyar, J. Zheng, M. A. Fecko, S. Samtani, and P. T. Conrad, “Evaluation of architectures for reliable server pooling in wired and wireless environments,” IEEE Journal on Selected Areas in Communications (JSAC), Vol. 22, No. 1, pp 164-175, Jan. 2004. [ pdf ]

CONFERENCE PUBLICATIONS

1. J. Zheng and M. J. Lee, “A new efficient medium access control protocol for multi-hop wireless mesh networks,” International Wireless Communications & Mobile Computing Conference (IWCMC), Vancouver, Canada, Jul. 2006. [ pdf ]
2. J. Zheng and M. J. Lee , “ Improving military operations using low rate wireless personal area networks ,” Proc IEEE Military Communications Conf . (MILCOM), Nov . 200 4 .
3. Y. Liu, X. Hu, T. Kwon, C. Zhu, J. Zheng, and M. Lee , “An i ntegrated r outing p rotocol for w ireless s ensor n etworks,” Proc IEEE Military Communications Conf. (MILCOM), Nov . 200 4 .
4. J. Zheng and M. J. Lee , “ Low rate wireless personal area networks for public security ,” IEEE Vehicular Technology Conference (VTC) , Sept. 200 4 .
5. M. Ü. Uyar, J. Zheng, M. A. Fecko, S. Samtani, and P. T. Conrad, “Reliable server pooling for future combat systems,” Proc. IEEE Military Communications Conf. (MILCOM), Oct. 2003.
6. M . A. Fecko, M. Ü . Uyar, S . Samtani, and J . Zheng , “Metrics for q uantifying b enefits and c ost of s ession sw itchovers,” Proc. IEEE Military Communications Conf. (MILCOM), Oct. 2003.
7. M. Ü. Uyar, J. Zheng, M. A. Fecko, and S. Samtani, “Reliable server pooling in highly mobile wireless networks,” IEEE Int’l. Symp. on Computers and Communications, Antalya, Turkey, Jun . 2003.
8. M. Ü. Uyar, J. Zheng, M. A. Fecko, and S. Samtani, “Performance study of reliable server pooling,” Proc. IEEE Int'l. Symp. on Network Computing and Applications, Cambridge, MA, pp. 205-212, Apr . 2003.
9. M. Ü. Uyar, J. Zheng, M. A. Fecko, S. Samtani, and P. T. Conrad, “Persistent sessions by reliable server pooling in mobile ad-hoc networks,” Proc. ARL/CTA Annual Communications and Networks Symp. , Boston, MA, pp. 283-288, Apr . 2003.
10. M. A. Fecko, M. Ü. Uyar, J. Zheng, P. T. Conrad, and S. Samtani. “Increasing infrastructure survivability through reliable server pools (Summary),” T he 23rd Army Science Conference , Orlando, FL, Dec. 2002.

PATENTS

1. J. Zheng, M. J. Lee, and J. Kim, “Parallel and accumulative reception using CDMA,” (Filed in both US and Korea through Samsung Advanced Institute of Technology in 2006)
2. J. Zheng , M. J. Lee, and E. Suh, “Routing method in wireless network and communication device using the same, ” (Filed in both US and Korea through Samsung Advanced Institute of Technology in 2006)
3. J. Zheng and M. J. Lee, “MASM: A medium access scheduling midware for wireless mesh networks,” (Filed in US in 2005, Application No. 60/597348)
4. J. Zheng and M. J. Lee, “ROT: A simple receiver oriented TDMA scheme,” (Filed in US in 2005, Application No. 60/597347)
5. J. Zheng , M. J. Lee, and J. S. Jung, “TDLS: Tree-guided distributed link state routing method,” (Filed in both US and Korea through Samsung Advanced Institute of Technology in 2005)
6. J. Zheng , M. J. Lee , J. Park, and E. Suh, “ART: Adaptive robust tree,” (Filed in both US and Korea through Samsung Advanced Institute of Technology in Jun. 2004)

STANDARD CONTRIBUTIONS

• Co-contributor of IEEE 802.15.4b – the enhancement of IEEE 802.15.4
• Contributor of IEEE 802.15.5 low rate wireless mesh routing
• Co-designer of ZigBee routing

SOFTWARE AND RESEARCH TOOL CONTRIBUTIONS

• TDLS modeling and simulation [ source code ]
• Topology-guided distributed link state (TDLS) routing has been accepted as IEEE 802.15.5 (low rate) standards.
• Besides TDLS, the simulation code also covers Adaptive Robust Tree (ART), Meshed ART (MART), Receiver Oriented TDMA (ROT), and Medium Access Scheduling Midware (MASM). For details, please see papers “A resource-efficient and scalable wireless mesh routing protocol” (ART/MART/TDLS) and “Data transmission and beacon scheduling in low rate wireless mesh personal area networks” (ROT/MASM) listed in publications section.
• IEEE 802.15.4 modeling and simulation [ source code ]
• The only full-functional modeling and simulation platform for wireless personal area networks and wireless sensor networks so far.
• Provided to the research community and industries for free since Sept. 2004; has been used by the ZigBee Alliance and by thousands of researchers and industrial practitioners from all over the world.
• Included in the core release of NS2 (www.isi.edu/nsnam/ns).
• ZigBee network simulator
• Developed for the research of ZigBee Alliance (www.zigbee.org), an industrial alliance that focuses on wireless personal area networks and wireless sensor networks and now has nearly 200 member companies from all over the world, including Motorola, Samsung, Philips, Mitsubishi, Texas Instruments, Epson, Cisco, Siemens, and NEC.
• Has been used by researchers from both within and outside ZigBee Alliance for prototyping, simulating, and testing ZigBee networks.
• Reliable Server Pooling (RSP) modeling and simulation
• Developed for the research of Future Combat System (FCS) of US Army
• Implemented the following functionalities: Wired/Wireless Scenarios Definition, IETF (www.ietf.org) endpoint name resolution protocol (ENRP), IETF aggregate server access protocol (ASAP), MAODV Routing, Simplified SCTP, RSP-aware CBR Application, Deterministic/Statistical Error Model.