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Item 3-phase protection scheme(UMT.Lahore, 2013) Areebah Rana; Hafiz liquat; Kashif razaEngineering is not only a theoretical study but also the implementation of all that knowledge for creating new and making things more easy and useful for humans.Now a day a very common issue created by Wapda is not only the load-shedding but also the over-load and under-load voltage issues that harms the house hold electronics badly that made us think to make a protection scheme that protects the house hold goods from damaging .As its purpose is to protect any of house hold etectronic to get into an overload or under load conditions. By disconnecting the supply voltage through a relay and this is how we can save our etectronic machiens by getting replaced.Item 42v switch mode-based charger for advanced vehicle(UMT.Lahore, 2016) Saad Abdul Basit; Syed Irfan Hayder; Muhammad Zuhair Ammar; Muhammad Naeem WarisAs the demand in electrical loads increases in today’s advanced vehicles, there is a need to replace current 14V system to a new voltage system because the current system is not enough to meet the load requirement. To resolve this problem, an efficient and cost effective switch mode based 42V battery charging system using flyback topology is designed. TL494 PWM controller is used to design gate drive circuitry. Design is first simulated on NI Multisim software. Then, it is tested practically by connecting three 12V/ 4Ah batteries in series. Final converter circuit is successfully charging the batteries as desired. Keywords: battery charger, low cost, new voltage system for advanced vehicles, flyback, SMPS, TL494Item A military spy robot(UMT.Lahore, 2017) Muhammad Haseeb; Sultan M.Salah Ud Din; Muhammad Bilal Shafiq; Ibtesam EllahiA spy robot is a robot which is used to gather the required information. Spy robot that is designed in this project is able to move on any kind of surface. The chassis used very is powerful. It can run smoothly and unhindered on rough paths. The front part of the chassis can stand freely, according to the angle of the car ramp to adjust the overall balance of the chassis. It is flexible. The robot can also avoid the obstacles. If an obstacle will come in-front of the robot while driving then the ultrasonic sensor will indicate that there is something ahead. Solar cells are used in this project. Solar Panel is basically a panel that absorbs the sun rays as source of energy for producing an amount of electricity. Solar cells are placed on the plastic enclosure and a servo is attached with round wooden block, it will help in opening and closing of the wings. In this way battery will be charged with the help of sunlight. Battery can also be charged with the charger. So, we can say that this robot is hybrid. The camera used in this project will give the output in HD. The camera will move in 8D with the help of servo motors. The robotic arm holds the camera. Four servo motors are installed in the arm so they can rotate it in any direction. PIR sensor is also used to detect the motion of human moves in or out of the sensor range. Bluetooth is used for short range operation while HC-12 is used for long range operation of the robot. Video recorded by the camera will be received on the LCD with the help of RF transmitter and receiver. An android app is designed to control the robot using mobile phone serial communication. Arduino serial monitoring is used for long range operation.Item Advance wireless power transfer system(UMT Lahore, 2022-05) Sadaqat Ali; Shoaib ZafarThe transfer of power energy from source to load for a distance without any conducting wire or cables is called Wireless Power Transmission. The concept of wireless power transfer was realized by Nikola Tesla. Wireless power transfer can make a remarkable change in the field of electrical engineering which eliminates the use of conventional copper cables and current carrying wires. Day by day new technologies are making our life simpler. Wireless charging through resonance could be one of the next technologies that bring the future nearer. In this project it has been shown that it is possible to charge low power devices wirelessly via inductive coupling. It minimizes the complexity that arises from the use of conventional wire systems. In addition, the project also opens up new possibilities of wireless systems in our other daily life uses. The transfer of power, the primary thought of sending power without utilizing wires. It is exceptionally important to compose that the electrical wire network has reached each side of the world, so these days the remote exchange framework is a vital framework. The fundamental reason for this review is to examine an ideal remote power move conspire with greatest transmission productivity. Another point is to discover the boundaries which influence the power move and how to expand proficiency. Wireless transfer the power over a distance of 50cm with 85% proficiency. Each individual required a strategy which moves the power with high productivity. So the Wireless exchange framework is the most ideal choice which satisfies our prerequisites. The remote exchange framework is utilized without the wires and rises the effectiveness by decreasing power misfortunes. Along these lines, the methodologies, the wellspring of separating, the moving the size, distance, value, viability, and wellbeing are the fundamental premise. Likewise, we examine the new innovations on the remote exchange framework. The fundamental reason for this review is to examine an ideal remote power move conspire with greatest transmission productivity. Another point is to discover the boundaries which influence the power move and how to expand proficiency.Item Advanced driver assistance system using NVIDIA JETSON NANO(UMT Lahore, 2022-06) Amna Noor Ul Huda; Ahsan Fiaz; Ahsan IslamAn advanced driver assistance system (ADAS) collects environmental data from a vehicle’s surroundings by using sensors. In the case of any hazardous situation detected by scanning roads, early warnings are generated to the system to make driving safe and prevent the uncertain situation. It helps the driver maintain a safe distance from their neighboring vehicles to keep the car in an appropriate position. In this project, we proposed the implementation of three functions of ADAS: Lane detection, traffic sign recognition, and forward-collision warning using Nvidia Jetson Nano. It provides assistance to assist in different operations, i.e., ADAS monitor calculation; footage of all the recording and all the features present in one unit, secondary camera for a driver facing, Hub for powering it up, GPS Antenna for speed data or location of the data. The LCD will show the hurdles in front of the vehicle and generate warnings for both the display on the screen. With a great divergence in the area of ADAS, if we move towards machine learning for ADAS, then there we might face some complexity, but machine learning is used to precise the output after compiling the data on run time or memory-based data. Nvidia Jetson Nano is a mini-computer that is powerful enough to allow you to perform multiple tasks like image classification, segmentation, and speech processing simultaneously.Item Advanced real time automation using system software control(UMT.Lahore, 2018) Muhammad Taimoor Hassan; Muhammad Umar Qayyum; Zain Ul Abideen; Ahsan Ahmad AjazA sensor based operating system that automates appliances according to the physical environment. This project provides insight to what can be achieved through the use of simple sensors operating simultaneously. This technique can be used to save energy and provided convenience for the daily use of appliances. The use of this particular form of automation is practical, advanced and convenient. It provides easy remote access to the operation of appliances which is a technologically advanced form of using electrical engineering knowledge for implementation anywhere. The software developed in the gateway for accessing the features of the entire system that include motion sensors and automatic brightness control mechanisms along with real time operations. The software provides the controlling of electrical switches from any given location provided that the device being used to access it is a part of the network to which the appliances are connected appropriately. This is a simple way of using technology to our advantage and makes use cheap equipment for our ease, comfort, security and also financial benefits in the long run.Item AI based cleaning robot(UMT Lahore, 2024-07-25) Muneeb Khan; Rameez TariqThe AI-Based Cleaning Robot project aims to develop an efficient cleaning robot utilizing Raspberry Pi 4 Model B as its central processing unit. The project involves integrating key components such as a Raspberry Pi camera (5-megapixel), Lidar sensor, 5-V encoder motors (x2), caster wheel, chassis, 40-A BMS with a 36A battery pack, and an ESP module. The progress report details the team's journey in configuring the Raspberry Pi and selecting an appropriate operating system. Initially, Raspbian was chosen, but its effectiveness proved suboptimal. After an extensive review of literature, the team opted for Ubuntu 23.10, the latest version available. However, challenges arose as ROS packets necessary for operation were not yet released for this version. Consequently, the team shifted to Ubuntu 22.04, which supported ROS 2, providing a more feasible solution. Despite its complexity, the operating system was adopted for further development. Recognizing the need for a user-friendly environment, the team revisited earlier versions of Ubuntu and settled on Ubuntu 20.4 Mate. This version not only provided a friendly interface but also had pre-installed software and support for ROS 2. The Lidar sensor, a critical component, was successfully tested on the Raspberry Pi installed with Ubuntu 20.4 Mate, demonstrating optimal functionality. Hardware development involved the creation of a custom chassis with a circular design, boasting a 14-inch diameter. This chassis accommodates spaces for the placement of encoder motors and tires. Rigorous testing of the robot's movement with the integration of two encoder motors connected to an ESP module, wirelessly communicating with the Raspberry Pi, was conducted. The wireless connection aims to minimize delays by up to 50%. In summary, the team successfully navigated the challenges of selecting an appropriate operating system, tested the functionality of key components, and established a foundation for the AI-based cleaning robot. The integration of ROS 2, a user-friendly environment, and wireless communication showcases the team's commitment to creating an advanced and efficient cleaning solution.Item AI powered health monitoring for electrical machines using machine learning(UMT Lahore, 2025) Rabia Yasmeen; Abdul Rehman Atiq; Muhammad AnasThis project develops and demonstrates a low-cost AI powered health monitoring system for a single-phase capacitor-start induction motor using an Aurdino UNO microcontroller and sensors (ACS712 for current, ZMPT101B for voltage, DS18B20 for winding temperature and SW-420 for vibration pulses). The firmware acquires synchronized measurements in short sliding windows, computes electrical, thermal and vibration features, and applies a simple, interpretable random Foresto classify the motor state as healthy or faulty in real time. Sensor data and health status are streamed to a Google Sheet for historical logging and displayed on a Blynk mobile dashboard for remote visibility and alerts. Controlled tests with induced overload, restricted cooling and imbalance scenarios show that the system detects abnormal conditions within a few seconds, maintains stable readings during normal operation. The results confirm that an explainable edge AI approach can provide timely, reliable condition monitoring for motors without expensive industrial hardware, laying a practical foundation for future multi-class diagnostics and predictive maintenance enhancements.Item An implementation of hybrid embedded system using CNC plotter and image recognition techniques(UMT Lahore, 2020) M.Ibrahim; Hamza Amjad; Aazan KhalidIncrement in the quick development of Technology fundamentally expanded the use of Computer Numerical Control (CNC) frameworks in businesses. With the assistance of microcontroller (Arduino), including driver for stepper motors and G-Code file the whole procedure completes. In this manner, CNC plotter Structure is very not quite the same as the more established CNC plotter. It is competent to compose and draw the basic structures with the specific yield. The structure is amplified giving the bigger drawing surface zone and giving new look to the whole structure. CNC plotter depends on the open source equipment and programming. The work talks about the structure and usage of three-dimensional CNC machine utilizing off-the-rack segments. We constructed the mechanical framework, which contains three axis X, Y and Z where four stepper motors and their drivers were utilized to move it. Drivers for development (X and Y-axis) control these four stepper motors. The left and right movement controlled by X axis stepper motor, front-back movement controlled by Y-axis stepper motor and the pen is up down that is constrained by Z-axis servomotor. Microcontroller send guidelines to stepper motor after interpreting the streamed g-code got from USB/Serial port. The plotter also have an option of taking the picture on run time using raspberry pi and camera. This makes the plotter very different from other.Item An intuitive approach for the design and implementation of omnidirectional telepresence robot(UMT.Lahore, 2018) Zain Ul Abideen; Muhammad Husnain JavedThe telepresence robot is designed to set forth an economic solution to facilitate day to day normal activities in almost every field. The applications of this robot include the conference meeting, conducting interviews, distance learning, teaching, office meet ing etc. There are a number of proposed solutions to design telepresence robots e.g Skype and team viewer, but it is pretty silly to use Skype and extra hardware. Video transmission is achieved by using the WebRTC technology between client and user to interface the control commands. The user can log in to the website and the robot could be controlled using a GUI interface along with a separate window for video display. The hosted WebRTC and java scripts translated the commands to the microcontroller to translate the instruction. To achieve the efficient and reliable video transmission the influence quality factors like quality of service (QoS) and bandwidth are resolved using the WebRTC along with the integration of the communication protocols. To protect the data transmission we have implemented the SSL protocol and installed on the server125. To prevent the public access from the control panel we have designed a login page and linked with the Microsoft SQL server to enhance the authentication process. The biggest challenge was to make moving internet connection anywhere without any dependency. The problem of the movement is resolved by Omni wheels as it does not require steering angle. The telepresence robot could be controlled anywhere through the internet and smooth motion of the robot is obtained by omnidirectional control. The robot is mod elled as a holonomic omnidirectional and equations of the modelling are implemented in the microcontroller to obtain the omnidirectional movement. The whole process of the robot is accomplished by three phases; two phases of the programming and one phase of the hardware implementation. One phase is WebRTC integration with JavaScript programming, second for microcontroller programming to control motion and third for hardware implementation and software integration of the robotItem Analysis of garments defects and proposal for their remedial plan(UMT Lahore, 2011) Aamir Raza; Asad Ali Raza; Abrar AhmadItem Android based home automation system(UMT.Lahore, 2013) Salman Javid; Suliman; M.Irfan BhattiHome Automation System is a method of controlling your house and communicating with it. Updating the statuses of Lights, Fans, motors and other house hold appliances through Remote Control and Mobile phone. This provides user access to his house even from remote location, giving him peace of mind that his house is in his control all the time. In our project the same thing is implemented through an Android App instead of ordinary mobile softwares. The user would be able to access/control his house appliances through his Android phone from any remote location.Item Animatronics robot with two arms(UMT.Lahore, 2016) Ahsan Javed; Hafiz Abdul Hadi; Muhammad Ishaq; Zain-ul-AbidianIn these days in the world, there is an increasing need to create robotic or humanoid arms to do different human activities where human actions are difficult to perform or we can say impossible. It may involve pick and drop things, let’s say we want to serve a glass of water to a disabled person or diffuse a bomb, using a wireless control operation. Here we have proposed to build a robotic or humanoid arm controlled by different wireless means. Finally, this arm can avoid the problem such as picking or placing the harmful objects or non-hazardous objects that are far away from us and help to disable patients. The method used in designing and constructing the robotic arm is based on the operational features and characteristics of the microcontroller (Arduino), electronic circuit, servo motors and the programming of servo motors and Arduino microcontroller. The analog voltages received from the sensor (Infrared) are fed into the microcontroller, these analog voltages are converted into digital values using built in Analog to Digital converter of the microcontroller. The analog values from the infrared sensor fed into the Arduino and it is compared with stored reference values then appropriate signals are sent to servo motor 0controller, which actuates the motors to move the arm to the specified coordinates and grip or release the objects.Item Antenna design for uwb(UMT.Lahore, 2013) Muhammad Umer Farooq; Muhammad Yousaf; Bilal TariqThis is the project report on the Final Year Project titled “Micro-Strip patch antenna (UWB)”. Micro strip patch antennas are gaining popularity day by day because they are very compact in size having low weight and easy for integrating with devices. Micro strip patch antennas can be designed in different shapes and configurations for different characteristics of band such as dual-band, multi-band, wide- band and ultra wide band for GSM WLAN, Wi Max and other wireless technologies. Ultra wide band antennas actually enable low power consumption, high data transmission rates in wireless communication application. In this project a simple micro strip-fed antenna is proposed with ultra wide band characteristics. The antenna is composed of circular patch converted into key like shape with help of slits and slots in order to improve results, and a partial ground plane having slit. The main emphasis was to design an antenna which covers the bandwidth of ultra wide band applications. This patch antenna is designed and simulated in Ansoft HFSS 11 (High Frequency Structure Simulator).Item Antenna tracker for drones(UMT Lahore, 2023-06) Mian Muhammad Umair; Muhammad Aqib ZahoorUnmanned aerial vehicles (UAVs), such as drones, rely on antenna tracking because it enhances communication between the drone and base station. A mobile antenna installed on the drone and a ground station antenna make up the antenna tracker system, which continually tracks the drone's position and modifies its direction to maintain a strong signal. An overview of antenna tracker technology, including its operating principles, system components, and UAV applications, is given in this study. We also go through the advantages of employing antenna trackers for drones, such as better range, more dependable communication, and improved safety. In our final section, we look at a few of the difficulties that antenna tracking systems face, such as system complexity, cost, and integration with other drone technologies. As a whole, this paper emphasizes the value of antenna tracking technology for creating secure, dependable, and efficient drone systems and lays the groundwork for future study and development in this field.Item Anti collision mechanism in cars(UMT Lahore, 2012) Muhammad Awais Murtaza; Muhammad Umer SadiqueThis project focuses on the implementation of an anti-collision mechanism in vehicles that is readily implementable in the current scenario. During the course of study and fabrication of a small scale prototype, various related literature and statistics were consulted to provide relevant data on which to most effectively design our anti-collision mechanism. The proposed solution was based on the braking distance of a car, which varies with speed and road conditions. After accounting for variables that affect the braking distance, a relation was derived between braking distance and the speed of the car. It was realized that if there was sufficient distance for the car to brake, no collision would occur. Hence the mechanism was based on the fact that the car must maintain a minimum braking distance at all times, otherwise it must either slow down its speed or come to halt.Item Apfc (automatic power factor control) unit(UMT.Lahore, 2017) Umar draz khan; Muhammad Ali Faraz; Waheed Arshad; Nida IqbaIn the present innovative insurgency, power is valuable that is the reason we have to discover the reasons for power loses. The venture is intended to limit punishment for modern by utilizing programmed power factor Correction gadget. Power factor is characterized as the proportion of genuine energy to clear power. It can be scientifically spoken to as kW/kVA. where the numerator is the dynamic (genuine) control and the denominator is the (dynamic + receptive) clear power. Receptive power is the non-working force created by the attractive and inductive burdens, to produce attractive flux. The expansion in receptive power expands the evident power, so the power factor additionally diminishes. In this framework the time slack between the zero voltage heartbeat and zero current heartbeat created by zero intersection identifier circuits. Arduino (mega 2560) use to play out all operation in the framework. Supervisory control and information allegation (SCADA) application use for consequently turn ON and OFF mechanical load and screen all parameters of the heap and supply area. The program assumes control to impel proper number of thyristor from its yield to bring shunt capacitors into the heap circuit to get the power factor till it comes to close solidarity. Facilitate the venture is upgraded by utilizing thyristor control switches rather than hand-off control to maintain a strategic distance from contact setting regularly experienced by exchanging of capacitors because of high in surge current. Watchwords—Three stage control supply; Static capacitors; Induction Motor; Arduino and SCADAItem Appliance energy prediction in a low energy house using machine learning and deep learning(UMT Lahore, 2023) Ahmad Yasin; Ahmar AminThe rising environmental concerns and the necessity for sustainable living have led to a significant increase in the demand for energy-efficient housing. As a result, accurately predicting the energy consumption of appliances has become crucial for optimizing energy usage and reducing costs. This research paper investigates the utilization of machine learning and deep learning methods to forecast energy usage of household appliances in a low-energy residence. The primary aim is to improve energy efficiency by achieving higher prediction accuracy and optimization.Item Arduino based pre paid energy meter using rfid(UMT.Lahore, 2016) Muhammad Musa Baig; Muneeb Amin; Bilal Shahid; Israr AliIn Pakistan, presently distribution companies are collecting revenues from their consumers by metering and billing. The expenses for metering, billing, and collecting dues has become complex as electricity is supplied to large number of consumers located in far distributed areas also. This may encourage consumers to alter or temper meter readings. To address these problems, distribution companies can go for the solution of prepaid smart card energy meter, which can finish the whole problems associated with the present billing system and will make the consumer more conscious about usage of electricity. This project report explores the concept and designing of smart card prepaid electricity meter system, which will enable the consumer to buy required amount of energy and also provide information about their credit balance.Item Arduino based protection of 400v/240v costly electrical equipment(UMT.Lahore, 2017) Talha Zamir; Saad Ahmad; Toheed Asad; Mohsin RiazThe main intention of this project is to design an Arduino based differential protection scheme that can be used for costly household electrical equipment’s. The system checks the operating parameters of the appliance like current and feedbacks it. The system is designed such that it is able to detect the difference in the current values of primary and secondary sides of the electrical equipment and isolate the appliance from the line in case of fault. Zone of differential protection is defined for the electrical equipment. If a fault occurs in the zone the differential protection, it operates the relays isolating the electrical equipment from the healthy system. This isolation process is to ensure that the electrical equipment is safe from any of these differences in current values that can make it to overheat and thus getting it damaged. A Hall Effect current sensor is used in this project as the interfacing instrument between the electrical equipment and the Arduino microcontroller. A relay is used as tripping device to isolate the electrical equipment from the healthy system in case of fault. An LCD is used to show system current readings and indicate cases of differential fault. All these peripheral devices depend on the microcontroller to make them operate. Some of the tools used in this project include Arduino IDE programming software used to write the program for the microcontroller. Proteus simulation software is used to test whether the design works appropriately before its implementation on hardware.