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Lakshmipriya, K.
- Perception of the Public and Private Life Insurance Policyholders
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Authors
Affiliations
1 P.G Department of Commerce, A.J.K. College of Arts and Science, Coimbatore–105, IN
1 P.G Department of Commerce, A.J.K. College of Arts and Science, Coimbatore–105, IN
Source
International Journal of Statistics and Systems, Vol 8, No 1 (2013), Pagination: 43-49Abstract
Liberalization of the insurance market in India gave entry to many private insurers, resulting in drastic changes in respect to people's choice of companies. With the expansion of the market, insurance penetration and density of the country are getting better, leading to a competition within the companies in terms of policies sold, collection of premium income, settlement of claims and others. Companies are employing different marketing channels, apart from the conventional channel of marketing through individual agents, to stay in the competition. Hence a researcher has made an attempt to analyse the perception of the policyholders towards the public and private life insurers' services.Keywords
Liberalization, Life Insurance Corporation, Policyholders, Service Camps
References
- Krishna murthy., S., 2005. Insurance sector: Challenges of Competition and Future Scenario. Vikalpa., 30(6): 45-52.
- Neelam Jain., 2003. Liberalisation of insurance industry in India: Opportunities and Challenges. Journal of Southern Economist., 39(3), 7-11.
- Prakasha Rao, K.S and Bh Vemnkatesswara., 2003. Buoyant Rural Markets. Insurance Chronicle., 5 (7): 47-48.
- Ramesh, M., 2003. New Players-Smooth, Start, But.,. The Hindu, Business Line, September 22.
- Rao, G.V., 2004. Liberalised customers –A Challenge for Insuresr. IRDA journal., 2: 18-22.
- Ravi kumar Sharma., 2005. Insurance Perspective in Eastern up –An Empirical study. Indian Journal of Marketing, 18(8).
- Shivaji Dam., 2004. Create the system. IRDA Journal., 2.
- An Analysis of Biometric Transformative Schemes
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Authors
Affiliations
1 PG & Research Department of Computer Science, Nehru Arts and Science College, Coimbatore, Tamilnadu, IN
1 PG & Research Department of Computer Science, Nehru Arts and Science College, Coimbatore, Tamilnadu, IN
Source
Biometrics and Bioinformatics, Vol 10, No 1 (2018), Pagination: 6-7Abstract
There is a complexity in creating a secure Biometric system is protecting the templates of the user stored in Central Database. If there is any Compromise in saving templates then it will cause serious problem in security. The Cancellable Biometric is one of the safest methods used to store the template without duplication. In order to avoid the theft of iris biometric pattern, it is very must to design irrevocable and non- invertible transformation to create cancellable biometric template. In cancellable biometric many transformation techniques are used. In this attempt, two transformation techniques, i.e., Bio-hashing and Huffman Encoding with DCT are taken for comparative study in creating cancellable iris Biometric.Keywords
Biometrics, Cancelable Biometric Templates, BioHashing, Huffman Encoding & DCT.References
- Dr.E.Chandra,& Ms.K.Kanagalakshmi ,”Cancelable Biometric Template Generation and Protection Schemes: a Review”., 978-1-4244-8679-3/11/©2011 pp.15-20.
- Nalini K. Ratha, and Jonathan H. Connell ,”Cancelable Iris Biometric”. IBM Watson Research Center, 978-1-4244-2175-6/08/©2008 IEEE
- Sanjay Kanade, Dijana Petrovska-Et.Al. “Cancelable Iris Biometrics and Using Error Correcting Codes to Reduce Variability in Biometric Data”. IEEE, 978-1-4244-3991-2009,pp 120-127.
- Alessandra Lumini,et.al “Improved BioHashing For Human Authentication”,Pattern Recognition,Volume 40 Issue 3,March 2007,Pages 1057-1065.
- Vishal M. Patel, Nalini K. Ratha, ET.AT..”Cancelable Biometrics: A Review”. IEEE Signal Processing Magazine, 32 (3), 53-69.
- Kenta Takahashi.”Cancelable Biometrics With Provable Security And Its Application To Finger Print Verification”. IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, Volume E94.A, Issue 1, pp. 233-244 (2011).
- Nalini K. Ratha, ,Sharat Chikkerur.EtAl.” Generating Cancelable Fingerprint Templates”.IEEE Transactions On Pattern Analysis And Machine Intelligence, VOL. 29, NO. 4, APRIL 2007
- Emanuela Piciucco, Emanuele Maiorana,Et.Al..”Cancelable Biometrics for Finger Vein Recognition”Section of Applied Electronics, Department of Engineering, Roma, Italy 978-1-4244-2175-6/08/©2008 IEEE
- Bismita Choudhury, Patrick .Et.Al.”Cancelable Iris Biometrics Based on Data Hiding Schemes”. 2016 IEEE Student Conference on Research and Development (SCOReD) 9781-5090-2948-8/16©2016 IEEE
- L. Masek, “Recognition of Human Iris Patterns for Biometric.Identification”. The University of Western Australia, Perth, 2003.
- Y. J. Chang, Z. Wende, and T. Chen, “Biometrics-based cryptographic key generation," IEEE Interna-tionalConferenceon Multimedia and Expo, vol. 3,pp. 2203-2206, 2004
- J. Hammerle,Uhrl,E.Pschernig,A.Uhl, ”Cancelable Iris Biometrics using block Re-Mapping And Image Warping”,Springer Lecture Noted on Computer Science Information Security,Vol.5735,pp.135-142
- J.K.Pillai,V.M.Patel,R.Chellappa,N.K.Ratha,”Sectored Random Projection for Cancelable Iris Biometrics”,Proc. Of ICASSP,PP1838-1841,2010
- Rathgeb, F. Breitinger and C. Busch. J. K. Pillai, Et.Al.“ Alignment-Free Cancelable Iris Biometric Templates based on Adaptive Bloom Filters”.. In Proc. IEEE Int’l Conf. on Acoustics Speech and Signal Processing, pages 1838–1841. IEEE, 2010.
- Electricity Generation using Nano Generator
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Authors
Affiliations
1 Department of EEE, Ramco Institute of Technology, Rajapalayam, IN
1 Department of EEE, Ramco Institute of Technology, Rajapalayam, IN
Source
Programmable Device Circuits and Systems, Vol 11, No 2 (2019), Pagination: 26-29Abstract
The usefulness of most high technology devices such as cell phones, computers, and sensors is limited by the storage capacity of batteries. .In the future, these limitations will become more pronounced as the demand for wireless power outpaces battery development which is already nearly optimized. We need to develop electricity generating techniques with the help of wasted human energy which is in the form of mechanical pressure and vibration for our better future .Thus, new power generation techniques are required for the next generation of wearable computers, wireless sensors, and autonomous systems to be feasible. Nano generators are excellent power generation devices because of their ability to couple mechanical and electrical properties. For example, when an electric field is applied to Nano sheets a strain is generated and the material is deformed. Consequently, when a Nano sheets is strained it produces an electric field; therefore, Nano generators can convert ambient vibration into electrical power. Piezoelectric materials have long been used as sensors and actuators; however their use as electrical generators is less established. A piezoelectric power generator has great potential for some remote applications such as in vivo sensors, embedded MEMS devices, and distributed networking. Developing piezoelectric Nano generators is challenging. Piezoelectric properties are controlled/tuned by externally applied force/pressure, such as diode, strain sensor and strain-gated logic unites, which are a new field called piezotronics. Our paper presents a practical analysis to increase the power generation using Nano generators.
Keywords
Nano Generator, Mechanical Stress, Power Generation, Piezotronics.References
- Garnett E. Simmers Jr., Henry A. Sodano Cen-ter for Intelligent Materials Systems and Structures, Mechanical Engineering Department, Virginia.
- Starner, T., 1996, “Human-Powered Wearable
- Computing,” IBM Systems Journal, Vol. 35, pp.618.
- Stephen R. Platt, Shane Farritor, and Hani Haider “On Low-Frequency Electric Power Generation with PZT Ceramics”
- Hugo Schmidt, “Piezoelectric energy conversion in windmills,” in Proc. Ultrasonic Symp., 1992, pp. 897–904.
- Xu S, Hansen B J, Wang Z L (20101) piezoelectric nanowire-enabled power source for driving wireless microelectronics. Nat. Commun. 93: 1-5.
- Roundy S, Leland E S, Baker J, Carleton E, Reilly E, Lai E, Otis B,Rabaey J M, Wright P K, Sundarajan V(2005) Improving power output forvibration-based energy scavengers. Pervasive computing, IEEE, 4(1):28-36.
- Chalasani S, Conrad J M (2008) A survey of energy harvesting sources for embedded systems. Souteastcon, IEEE, 442-447.
- Fan Z, Lu J G (2006) Nanostructured ZnO: building blocks for nanoscale devices. Int. J. Hi. Spe. Ele. Syst. 16(4): 883-896.
- Xu C, Wang X, Wang Z L (2009) Nanowire structured hybrid cell for concurrently scavenging solar and mechanical energies. J. Am. Chem. Soc.131: 5866-5872.