Mechanica 2011 - IIT Madras

April 9,10 (Mechanical)

Mechanica 2011, an annual technical festival of the Mechanical Engineering Department of IIT Madras, Chennai. At Mechanica, we present to you unparallel oppoirtunities to test your skills.

National Symposium on Rotor Dynamics - IIT Madras

December 19,20,21

Most machines have one or more rotating parts. Rotating machine elements thus form the backbone of industrial infrastructure and therefore play a pivotal role in the growth and development of the country. Rotor Dynamics is the key in design and maintenance of all such rotating machinery. This area has made tremendous strides in recent years.

ObCom 2011 - VIT

September 9

This International Conference is a major event to be conducted following the grand success of series of ObCom conferences during 2003, 2004 and 2006, which were audited by a good number of participants from Academia and Industry across the World. The past ObCom conferences received good contributions from academia, industry and research organizations. Our sponsors included governmental and non-governmental agencies like DRDO, ISTE, DIT, CSIR etc.

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NEURAL ENSEMBLE BASED CANCER DETECTION

Posted by tpapers On 12:58 am 3 comments
Abstract:
An artificial neural network ensemble is a learning paradigm where several artificial neural networks are jointly used to solve a problem. In this paper, an automatic pathological diagnosis procedure named Neural Ensemble-based Detection (NED) is proposed, which utilizes an artificial neural network ensemble to identify lung cancer cells. The neural algorithm we used is FANNC, which is a fast adaptive neural classifier that performs one-pass incremental learning with fast speed and high accuracy.  The fundamental operation of the artificial neural network is local two-dimensional convolution rather than full connection with weighted multiplication. Weighting coefficients of the convolution kernels are formed by the artificial neural network through back propagated training.  The artificial convolution neural network acted as a final classifier to determine whether the suspected image block contains a lung nodule.

By: VIJAYALAKSHMI .A  (FINAL -Yr, B.E)
      VINODHINI .K (FINAL-Yr, B.E)
      MAHENDRA ENGINEERING COLLEGE FOR WOMEN, KUMARAMANGALAM

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In vitro Seed germination of Egg plant (Solanum melongena L.) for enhance yield and disease resistance

Posted by tpapers On 12:54 am 3 comments
Abstract:


Techniques in a plant tissue culture, genetic engineering are important for production of new cultivars in the field of Agricultural Biotechnology. Egg plant (Solanum melongene L.) is an agronomically important non- tuberous Solanaceous crop growing for its nutrients vegetables. In popular medicine, egg plant is indicated for the treatment of several diseases, including diabetics, arthritis, asthma and bronchitis. The Brinjal is susceptible of a number of diseases and pests capable of causing serious crop losses. The problem has been overcome by the hybridization eggplant with wild resistant solanum species, which contains a wide genetic diversity and are source of useful agroclimatic traits. Egg plant tissue contains a high morphogenetic potential, that is useful for developmental studies a well as for establishing biotechnological approaches to produce improved varieties, such as embryo rescue, in vitro selection, somatic hybridization and genetic transformation. In the present  study a suitable protocol for the in vitro seed germination and field transfer of  Egg plant  (Solanum melongene L.) are standardized using  Ms media supplemented with BAP and  NAA. The germinated seedlings were successfully transferred to the field for planting. The plant which grown in this technique provide good yield.

By:
K. Nithya S.Ramya Under the guidance of Dr. J. Philip Robinson Ph.D
Department of Biotechnology
K.S. Rangasamy College of Technology
Tiruchengode- 637 215

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SIGNIFICANCE OF NANOTECHNOLOGY FOR FUTURE WIRELESS DEVICES AND COMMUNICATIONS

Posted by tpapers On 12:49 am 2 comments
Abstract:

This paper reviews the expected wide and profound impact of nanotechnology of future wireless devices and communication technologies. The requirements for this development are the mobile phone and the core requirements for this kind of intelligence are autonomous and robust. This paper explains how the nanotechnology provide solutions for sensing, actuation, radio, embedding intelligence into the environment, power efficient computing, memory, energy sources, human-machine interaction, materials, mechanics, manufacturing, and environmental issues. The sensing is the part at which the usage of the sensors is been explained. As the wireless technologies expect for high speed and less energy consumption they move on to the nanotechnology. By this the speed can be increased and also as the mobile phones are been used the memory space will be highly significant and there will be a better human-machine intractions.
 
By:Thamim Ansar K.,Venkatesh D ., Shanmuga Sundhar S., Sathish Kumar K.
     (Final Year E.C.E Department)
      Bhajarang Engineering College

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