Zero-configuration identity-based signcryption scheme for Smart Grid

The success of future intelligent power deliver and transmission systems across the globe relies critically on the availability of a fast, scalable, and most importantly secure communication infrastructure between the energy producers and consumers. One major obstacle to ensure secure communication among various parties in a smart grid network hinges on the technical and implementation difficulties associated with key distribution in such large-scale network with often-time disinterested consumers. This paper proposes the use of an identity-based signcryption (IBS) system to provide a zero-configuration encryption and authentication solution for end-to-end secure communications. The suitability of employing such identity-based cryptosystems in the context of smart grids is studied from the perspective of security requirements, implementation overhead and ease of management. Using the design and implementation experience of our proposed system as an example, we illustrate that IBS is a viable solution to providing a secure and easy-to-deploy solution with close to zero user setup required.published_or_final_versionThe 1st IEEE International Conference on Smart Grid Communications (SmartGridComm 2010), Gaithersburg, MD., 4-6 October 2010. In Proceedings of the 1st SmartGridComm, 2010, p. 321-32

Zero-configuration identity-based IP network encryptor

For corporations or individuals who wish to protect the confidentiality of their data across computer networks, network-layer encryption offers an efficient and proven method for preserving data privacy. Network layer encryption such as IPSec is more flexible than higher layer solutions since it is not application-dependent and can protect all end-to-end traffics that go between two hosts. Using IPSec, two hosts must first establish a session key through message exchanges before they can communicate. In this paper, we present an Identity Based Encryption (IBE) scheme that allows a host to calculate the per-packet encryption key based on the IP address of the destination host, without going through the expensive key exchange process as in IPSec. Our mechanism is compatible with the current IP protocol and we tested our scheme with live HTTP and ICMP traffic. Our results show that our protocol provides a zero-configuration network layer encryption solution for end-to-end secure communications that is ideal for consumer electronics applications. © 2006 IEEE.published_or_final_versio

Assessing photochemical ozone formation in the Pearl River Delta with a photochemical trajectory model

A photochemical trajectory model (PTM), coupled with the Master Chemical Mechanism (MCM) describing the degradation of 139 volatile organic compounds (VOCs) in the troposphere, was developed and used for the first time to simulate the formation of photochemical pollutants at Wangqingsha (WQS), Guangzhou during photochemical pollution episodes between 12 and 17 November, 2007. The simulated diurnal variations and mixing ratios of ozone were in good agreement with observed data (R2=0.80, P<0.05), indicating that the photochemical trajectory model - an integration of boundary layer trajectories, precursor emissions and chemical processing - provides a reasonable description of ozone formation in the Pearl River Delta (PRD) region. Calculated photochemical ozone creation potential (POCP) indices for the region indicated that alkanes and oxygenated organic compounds had relatively low reactivity, while alkenes and aromatics presented high reactivity, as seen in other airsheds in Europe. Analysis of the emission inventory found that the sum of 60 of the 139 VOC species accounted for 92% of the total POCP-weighted emission. The 60 VOC species include C2-C6 alkenes, C6-C8 aromatics, biogenic VOCs, and so on. The results indicated that regional scale ozone formation in the PRD region can be mainly attributed to a relatively small number of VOC species, namely isoprene, ethene, m-xylene, and toluene, etc. A further investigation of the relative contribution of the main emission source categories to ozone formation suggested that mobile sources were the largest contributor to regional O3 formation (40%), followed by biogenic sources (29%), VOC product-related sources (23%), industry (6%), biomass burning (1%), and power plants (1%). The findings obtained in this study would advance our knowledge of air quality in the PRD region, and provide useful information to local government on effective control of photochemical smog in the region. © 2010 Elsevier Ltd

An ozone episode in the Pearl River Delta : field observation and model simulation

Author name used in this publication: H. GuoAuthor name used in this publication: A. J. Ding2010-2011 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe

Emission patterns and spatiotemporal variations of halocarbons in the Pearl River Delta region, southern China

Author name used in this publication: H. Guo2009-2010 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe

Concurrent observations of air pollutants at two sites in the Pearl River Delta and the implication of regional transport

Author name used in this publication: H. GuoAuthor name used in this publication: T. Wang2008-2009 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe