Abstract-

 

With the technical advancements in the daily life.  Man has always tried to re-innovate himself to the furthest frontiers in his field.  This has led to the design of the advanced Micro Controllers called PIC micro controllers; we have used the same in our project.

 

In this project we are acquiring the data from the light intensity senses.  Which are then fed to the comparators, and then they are fed to the PIC.  The software is developed in the PIC such that.  It collects the data from the comparators and then drives the stepper motor either in the clock wise or in the anti clock wise direction using the relay driver IC.

Here, depending on the light that falls on both the sensors, there will be a slight potential difference and this causes the PIC to drive the stepper motor till both the sensors gets the same light intensify and at this point of time the motor stops and thus indicates the correct location required by the software.

The project entitled PIC Micro controller solar tracking system provides energy by makes the maximum utilization of solar energy.

When light falls on the sensor.  Sensors sensed the intensity of light and make stepper motor to trace the light source.

In this two LDR's, PIC micro controller, one comparator and stepper motor is used.

It is widely used by the power companies, solar monitoring stations, high voltage labs and in the R & D industries etc.

ADVANTAGES

  1. Manpower requirements are minimized.
  2. Reduces human errors.
  3. Has better efficiency.
  4. Makes the maximum utilization of solar energy.
  5. Device to track the light source.
  6. Works at good speed and consumes less energy.
  7. Easy to construct and install etc.CORPORATE  OFFICE:TECHNOFIST

    YES Complex,

    #19/3&4, 2nd Floor,

    Dinnur Main Road

    R T Nagar Post

    Bangalore – 32
    =====================================================================
    Support : 080-40969981                                                                            Sales :+91-9008001602
    www.technofist.com  ww.technofist.in   www.itcdp.in                                 info@technofist.com
    =====================================================================

     

ABSTRACT- In mobile ad hoc networks (MANETs), a primary requirement for the establishment of communication among nodes is that nodes should cooperate with each other. In the presence of malevolent nodes, this requirement may lead to serious security concerns; for instance, such nodes may disrupt the routing process. In this context, preventing or detecting malicious nodes launching grayhole or collaborative blackhole attacks is a challenge. This paper attempts to resolve this issue by designing a dynamic source routing (DSR)-based routing mechanism, which is referred to as the cooperative bait detection scheme (CBDS), that integrates the advantages of both proactive and reactive defense architectures. Our CBDS method implements a reverse tracing technique to help in achieving the stated goal. Simulation results are provided, showing that in the presence of malicious-node attacks, the CBDS outperforms the DSR, 2ACK, and best-effort fault-tolerant routing (BFTR) protocols (chosen as benchmarks) in terms of packet delivery ratio and routing overhead (chosen as performance metrics).

CORPORATE OFFICE:                                                                                          
TECHNOFIST

YES Complex,

#19/3&4, 2nd Floor,

Dinnur Main Road

R T Nagar Post

Bangalore – 32
=====================================================================
Support : 080-40969981                                                                           Sales :+91-9008001602
www.technofist.com ww.technofist.in   www.itcdp.in                                 info@technofist.com
=====================================================================

At work as usual: 080-40969981 | Write to me: info@technofist.com, projects@technofist.com |when u needs me the most: +91-9008001602, 080-40969981| On the Web:www.technofist.com , www.itcdp.in

ABSTRACT- We address the problem of resource management for a large-scale cloud environment that hosts sites. Our contribution centers around outlining a distributed middleware architecture and presenting one of its key elements, a gossip protocol that meets our design goals: fairness of resource allocation with respect to hosted sites, efficient adaptation to load changes and scalability in terms of both the number of machines and sites. We formalize the resource allocation problem as that of dynamically maximizing the cloud utility under CPU and memory constraints. While we can show that an optimal solution without considering memory constraints is straightforward (but not useful), we provide an efficient heuristic solution for the complete problem instead. We evaluate the protocol through simulation and find its performance to be well-aligned with our design goals.

CORPORATE  OFFICE:

TECHNOFIST

YES Complex,

#19/3&4, 2nd Floor,

Dinnur Main Road

R T Nagar Post

Bangalore – 32
=====================================================================
Support : 080-40969981                                                                            Sales :+91-9008001602
www.technofist.com  ww.technofist.in   www.itcdp.in                                 info@technofist.com
=====================================================================

At work as usual: 080-40969981 | Write to me: info@technofist.com, projects@technofist.com |when u needs me the most: +91-9008001602, 080-40969981| On the Web:www.technofist.com , www.itcdp.in

 

Abstract :-While demands on video traffic over mobile networks have been souring, the wireless link capacity cannot keep up with the traffic demand. The gap between the traffic demand and the link capacity, along with time-varying link conditions, results in poor service quality of video streaming over mobile networks such as long buffering time and intermittent disruptions. Leveraging the cloud computing technology, we propose a new mobile video streaming framework, dubbed AMES-Cloud, which has two main parts: adaptive mobile video streaming (AMoV) and efficient social video sharing (ESoV). AMoV and ESoV construct a private agent to provide video streaming services efficiently for each mobile user. For a given user, AMoV lets her private agent adaptively adjust her streaming flow with a scalable video coding technique based on the feedback of link quality. Likewise, ESoV monitors the social network interactions among mobile users, and their private agents try to prefetch video content in advance. We implement a prototype of the AMES-Cloud framework to demonstrate its performance. It is shown that the private agents in the clouds can effectively provide the adaptive streaming, and perform video sharing (i.e., prefetching) based on the social network analysis.

CORPORATE  OFFICE:

TECHNOFIST

YES Complex,

#19/3&4, 2nd Floor,

Dinnur Main Road

R T Nagar Post

Bangalore – 32
=====================================================================
Support : 080-40969981                                                                            Sales :+91-9008001602
www.technofist.com  ww.technofist.in   www.itcdp.in                                 info@technofist.com
=====================================================================

At work as usual: 080-40969981 | Write to me: info@technofist.com, projects@technofist.com |when u needs me the most: +91-9008001602, 080-40969981| On the Web:www.technofist.com , www.itcdp.in

Sl. No.
Project Code
Projects Name
Abstract
1
ECE001
TEMPERATURE AND HUMIDITY CONTROL SYSTEM USING GRAPHICAL LCD AND ARM
Abstract
2
ECE002
IMPLEMENTING PERIPHERALS USING 32-BIT ARM MICROCONTROLLER
Abstract
3
ECE003
ARM AND RFID BASED SECURITY SYSTEM ( HOME , OFFICE OR INDUSTRIAL)
Abstract
4
ECE004
ARM BASED SMART POWER GENERATION AND OPTIMIZATION
Abstract
5
ECE005
INTERNET BASED HOME AUTOMATION SYSTEM USING ARM 7
Abstract
6
ECE006
ETHERNET CONTROLLER FOR HOME APPLIANCE USING INTERNET
Abstract
7
ECE007
ARM BASED REMOTE TEMPERATURE CONTROLLER WITH ETHERNET
Abstract
8
ECE008
REAL TIME DATA ACQUISITION SYSTEM USING ARM AND RTOS
Abstract
9
ECE009
DIGITAL RECEIPT SYSTEM (ARM+ETHERNET)
Abstract
10
ECE010
PROGRAMMABLE LOGIC CONTROLLERS (PLC)USING ARM FOR INDUSTRIAL AUTOMATION WITH RS485
Abstract
11
ECE011
CHECK POINT ACESS CONTROL USING ARM+ETHERNET+RFID
Abstract
12
ECE012
TALKING THERMOMETER FOR VISUALLY IMPAIRED
Abstract
13
ECE013
ARM AND GLCD BASED MICRO CONTROLLER CLOCK
Abstract
14
ECE014
ARM+ETHERNET CONTROLLED TEMPERATURE REGULATOR USED TO CONTROL THE DEVICE