Inferring Body Pose without Tracking Body Parts Project

The original method to determine the coherent body aspect and movement from series of monocular video is suggested. Human act is described like the direct two dimensional arrangement (that is the extension on the picture plane) of one coherent item in the form of the location of the evaluated arrangement of joints. The mathematical separation of the individual bodies from the settings is accomplished and low-level perceptible characters are obtained provided the separate entity shape.

Provided the set of entity movement sequences for training, unsupervised clustering is obtained via the Expectation Maximization algorithm. The operation is determined to construct the mapping among the characters of low-level to 2D pose. The suggested concept is accomplished based on the features with the help of actual and artificial determined body positions to produce the promising outcomes.

There are large deals to track and recognize the human body movement based on the PC. The productive outcome will create the breakthroughs in fields like visual surveillance, identification of human movement, video coding, human-PC interfaces, ergonomics, video retrieval etc.

When the common form of the tracked entity is build again then the movement examination will be largely intelligible. The humans are able to determine the portion of the body place and form based on low-resolution pictures of the planned 3D globe. Unluckily, the issue is innately tough for the PC.

Conclusion:

Under this Inferring Body Pose without Tracking Body Parts Project, we prospered the concept to determine human body position provided the single picture or sequence of the monocular picture including undecided entities. The aim of the Inferring Body Pose project is to sketch these basically low stages and perceptible characters to body settings. The method determines distinct sketching with a particular cluster under the perceptible character space.

Download Inferring Body Pose without Tracking Body Parts ECE & EIE Final Sem Project

 

Industrial Automation through Internet ECE Final Project

Industrial automation is the most recent science for industrial management. There are many procedures to robotize the industrial concepts, but for mechanics by the internet is a platform that is beneficial to create the communication among the managed devices and remote server (project apparatus).

 There are two kinds of medium. They are wired medium and wireless medium. If we apply the wired communication method, then we should communicate the wires from the control panel to the managed devices. This method is utilized if the interval among the control panel and managed machines are not too much. In the similar way, the rate of wires and the rate of sustaining the connection platform might be stretched.

           The wireless connection systems are used to prevent the physical wires usage.  We are able to organize the connection organization that is functioned to a few kilometers interval. This kind of method is expensive and even has interval disadvantages like connection method should be planned for a particular interval.

 These issues are taken away when we utilize the internet like our platform to get connected. The interval among the managed platform and the managed devices is not the issue like the internet is present around us. We should possess internet connections from both sides. The sustaining rate of the connection platform is like the internet bill between two sides after installing the hardware rate. We are able to utilize internet connection for every uses.

 Conclusion:

 The conclusion of the Industrial Automation through Internet ECE Final Project study is to improve the controller card which would be connected to the serial port of the system. The goal of the project is to manage the controller card from any system throughout the globe linked over the internet. The communication of this managed card is provided to the devices with the help of relays. 

Download Industrial Automation through Internet ECE Final Project Documentation

Impact of Rushing attack on Multicast in Mobile Ad Hoc Network ECE Project

The network of mobile ad hoc is the self-establishing method of nodes of mobile which connect among one another via wireless connections excluding centralized application or framework like the root points or access nodes. The Nodes under MANET function like hosts and also like the routers to move the packets from one point to another under multi-hop method. MANETSs are appropriate for administration under which there is no framework added like the vehicular connections, military arena, danger relief, and unearthed functions.

 Under these uses, the connection and cooperation between particular sections of points are important. It is beneficial to utilize multicast such that the network bandwidth and resources are protected because one message is released to several receivers concurrently. The multicast routing protocols under MANETs is divided into two sections. They are mesh-based and tree-based.

 Under the protocols of multicast routing mesh, there is merely one route among the receiver and sender and there might be several routes among every sender and receiver. Hence, the meshed routes are appropriate than routing meshes for the systems with modified topology like MANETs because of the presence of several routes among the source and the destination. For instance the tree-based multicast mesh routes are BEMRP, MAODV, AMRIS, and ADMR. Basically, the mesh routes of multicast routing protocols are CAMP, DCMP, ODMRP, FGMP, and NSMP.

 Conclusion:

 The aim of this Impact of Rushing attack on Multicast in Mobile Ad Hoc Network ECE Project is to force the moving attack on multicast mesh-based under MANETs. The moving attack performs like the productive attack of denial-of-service towards all present suggested on-demand ad hoc network routing protocols as well as the protocols which were planned to be protected. There are three schemes under this ECE project. They are the attacker point is kept nearer to the sender, the attacker node is kept nearer to the receiver, and the attacker node is kept anywhere in the MANETs.

Download Impact of Rushing attack on Multicast in Mobile Ad Hoc Network ECE Final Year Project

Image for Conclead Weapon Detection ECE Project

The bomb blasts are out of control throughout the globe in today’s current scenario. Bombs are found in underground stations and buses, which have resulted in the death of several and several has got injured. Bomb blasts are unable to be forecasted before hand.

The present Image for Conclead Weapon Detection ECE Project focuses on the technology that predicts the blast of bombs and suicide bombers by IMAGING FOR CONCLEAD WEAPON DETECTION. It is the sensor developments which explain the method of imaging and the dispute. Other methods like coexisted noise abolition, object development of video information and a few of the mathematical outcomes are also mentioned.

 The concealed weapons detection below the people clothing is most essential to the development for the safety of the common people and security of common assets such as railway stations, airports, and buildings etc. The screening methods done by man to detect the concealed weapons like bombs, handguns, and knives are generally in managed permission settings such as airports, buildings, and public occasions etc. It is often aimed to detect concealed weapons from the standoff interval and if it is not possible to manage the public flow by the controlled method.

 The very current progresses in MMW sensor science resulted in video-rate MMW cameras (30 frames/s). Nevertheless, MMW cameras are unable to give beneficial data of the complete and place of the person functioned. The sensor fusion concepts with the help of MMW and IR, or MMW and EO cameras are mentioned to improve the procedure values of passive MMW cameras.

Conclusion:

Image for Conclead Weapon Detection is concluded that the explosives are managed in a few locations such as sensitive buildings, airports, popular constructions etc. The aim of the electronics communication engineering project is the future arrangement of identification of concealed weapons and automatic detection. It is a scientifically dispute that needs creative solutions in sensor sciences and image method.

Download Image for Conclead Weapon Detection ECE Final Year Project

FM Based Campus Communication System ECE Project

The main aim of the FM Based Campus Communication System Final Year Main project is to establish a proper communication between required and predetermined points with negligible and high noise immunity. This Engineering Final Year Student Project consists of two sections FM transmitter and FM receiver. Transmitter are tuned to exact frequencies as desired individual transmitter will transmit at particular range of frequency’s, which can be varied by varying capacitance in each transmitter frequency are selected above 103 MHZ so that there is no interference with city standard fm transmitter radio. Tuning of receiver can be done to vary frequency of reception that is by varying gang capacitance. This FM Based Campus Communication System mainly useful in all Engineering Colleges & Universities to communicate each other.

IR-2110 based squarewave inverter by using 555 Timer

Description of IR-2110 based squarewave inverter by using 555 Timer: An inverter is a device which converts dc voltage to output ac voltage at required voltage and frequency.The output ac voltage frequency can be fixed or varied .The variable frequency output voltage have several applications in conveyor,machine tool testing.This convertion can be done by controlled power on and power off devices like MOSFET and IGBTs.

IR-2110 is a high speed,high voltage power MOSFET and IGBT driver. This inverter converts the dc voltage into ac output voltage of squarewave pulses by using two jk flif flofs.

Dc signal is given to the 555 Timer,it produces squarewave pulses.these squarewave pulses are given to the two JK flif flofs,the two pulses are converted into four signals and are given to the IR-2110.From the inverter the signals are given to the four IGBTs,then the signal is converted to ac signal of required voltage and frequency.

PLC Controlled In D1 Charging Conveyor For Blast Furnace In Vizag Steel Plant

Project Title: PLC Controlled In D1 Charging Conveyor For Blast Furnace In Vizag Steel Plant

Language of Implementation: A programmable logic controller (PLC)

Project Description:                       

              The main aim of the PLC Controlled In D1 Charging Conveyor For Blast Furnace In Vizag Steel Plant is to the braking flaps are located in cooling bed of 120 meters length is divided into two parts 60 meters each. One part covers the first half of the cooling bed and other part covers the remaining half. Each part has an number of individual flaps of about one meter length , and 200mm width, connected to the lengthy shaft covering one half of the cooling bed area. Each shaft is driven by a 52KW separately excited DC motor. These motors are in turn controlled by the drive control system (Drive 1 & Drive 2).                    

Sensor less Vector Control of Induction Motor EEE Project

  • Project Name: Sensor less Vector Control of Induction Motor

  •  Environment:  MATLAB/SIMULINK

 Project Description:

     This Sensor less Vector Control of Induction Motor EEE Project is on Induction motor to control the speed in both directions by eliminating the use of sensor and to estimate the speed and torque of an Induction motor their by reducing the size, complexity and overall cost.

project on Overview of Srisailam Powerhouse and 220KV Switchyard

  •  Project Name:  Live project on Overview of Srisailam Powerhouse and 220KV Switchyard
  • Type of Plant:  Hydel
  • Client:  Srisailam Power House

Project Description: This project on Overview of Srisailam Powerhouse and 220KV Switchyard involves the salient features of Srisailam power house and switchyard which contains the technical data and peripheral study of the equipment. A detailed study on various electrical equipment used for both generation side  like Battery control panel, synchroscope, chino recorder, unit auxiliary transformer (UAT), unit control board (UCB), thyristor bank, power transformer and distribution side like instrument transformers, earthling switch, circuit breaker, isolator, fuses, protective relays, bus coupler, lightening arrestor, bus bars are discussed. The 220kv/132kv/11kv feeders from the switch yard are studied. The different types of isolator arrangements along with the other switchyard equipment and protective devices are discussed. The sequence of operation of the system breaking is also discussed.

Responsibilities:

  • Conducting detailed study of the requirements and objective.
  • Writing Calculation and creating Documentation.

Wireless Robot controlling Data Acquisition to PC Instrumentation Project

TITLE: Wireless Robot controlling Data Acquisition to PC Instrumentation Project          

The aim of the EIE project is the robot follows a particular part in such a way that this part is always depends on the image that is being captured by wired cam which is attached to the robot and interfaced to controller. The direction of the robot was controlled with help of a keypad which is present in PC. It consists of transmitter and receiver. Here the wireless communication is used for controlling the parameters.

In this project KEIL VISION software is used to run the robot.