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Usman Khan
Embedded Systems Engineer
Radio Design - Bradford, United Kingdom
خلاصہ
I am a self-motivated individual with a keen interest in machine learning, embedded systems and robotics. Throughout my studies, I have worked on a multitude of Engineering projects which has helped me develop various technical skills including project management, problem solving, leadership and team work. I have strong programming and scripting skills, with an acute ability of quick learning. By nature, I am a researcher and an investigator, I am interested in questioning the viability of things before fully accepting them. I believe that I have the desire and the drive to succeed in the working environment.
پراجیکٹس
Combat Simulator
PCB design Project
Dynamics Project
Object Oriented Programming Project (School System Management)
ستمبر ۲۰۱٦
- نومبر ۲۰۱٦
| Bradford, United Kingdom
• Designed and developed a SCPI based test interface system for low noise amplifier circuits using raspberry pi to be implemented in production.
• Worked on a SCPI based image processing test system using raspberry pi to recognize the correct patterns of led blinking for circuit boards in production.
• Key aspects of role included
o Design of mixed signal electronic circuits, involving microcontrollers, serial bus peripherals, analogue to digital interface, digital IO
o Schematic capture and PCB layout using CAD tools
o Design and Programming of software for embedded platforms using python and LabVIEW
Store Manager
Londis Post Office
نومبر ۲۰۱۳
- جولائی ۲۰۱٦
| Leeds, United Kingdom
• Managing shifts for the rest of the employees on weekly basis.
• Managing the order of stock deliveries and dealing with the suppliers in an ethical and professional manner.
• Assisting on the tills, putting deliveries on the shop floor during busy hours and dealing with the customer complaints in an efficient and polite manner, always aiming to resolve the issue in a timely fashion.
• Coordinated the set up and opening of another shop of the same owner using planning skills.
• Responsibilities included the interviewing, training and hiring of new employees.
تعلیم
University of Leeds
ماسٹرز,
ماسٹرز ان سائنس,
Mechatronics and Robotics
Mechatronics and Control, Electric Power and Control System
فی صد 80%
2016
University of Leeds
بیچلرز,
بیچلرز ان سائنس,
Mechatronics and Robotics
Mechatronics and Control, Electric Power and Control System, Embedded System
In my first year of Engineering, I developed a combat simulator game in C++. The game had the features of career mode, skills up-gradation and an element of artificial intelligence in the opponent where it could learn how the user played to counter his attacks.
The project required the design of a schematics and Printed circuit board of DC converter circuit in Proteus. The circuit was printed on a butterfly paper and then the circuit was pasted to a copper plate using an iron, after which etching was performed with hydrogen peroxide. After the circuit board was etched, holes were drilled and the electronic components were soldered to the PCB board to finish the circuit.
In the Dynamics module, an 8ft escalator prototype was designed and manufactured to demonstrate the velocity, acceleration and frictional forces present in the escalator with varied weight. A DC motor connected to a battery source was used for demonstration.
Object Oriented Programming Project (School System Management)
In this project, School System Management program was developed using object oriented programming in C++. It had the features of keeping different profiles (Admin, teachers, Students) with a username and password access. It has a number of features for each profile from seeing the attendance, exam results and documents for students to changing the settings of the application for admin. In this program, file handling was used to access different data.
The aim of the project was to take us through the entire development process for a mechatronic medical device and assess our appreciation of what this entails; from clinical context to technical implementation. Search for relevant and appropriate literature was conducted to help us to understand the scope and nature of the problem in terms of economic, societal and patient impact. Existing intelligent products were researched to come up with the design for a basic functional prototype comprising of a catheter bag, a flex sensor, a myDAQ and other electronic bits to show the results of the system.
The objectives of the project were to attach the flex sensor to the catheter bag in the most effective way, designing a sensor circuit and programming in LabVIEW to compare the data taken from the sensors with the calibrated data to provide a user-friendly readout of the bag status
The project required the design of a digital locking system encrypted with a password to allow access to certain things such as a door on the supply of a correct password. For this purpose, a keypad was designed to allow the user enter the password. The next step was to store the password by using Parallel Input Processing. The last step was to compare the password entered by the user with a saved correct password in memory using Series Input Processing.
The aim of the project was to develop a program that reads in some force data from the palpation system. The project required the use of matlab to programmatically determine the position of possible tumors in the sample of data that would have to be included by the user. The data from the csv file was programmatically read to find different tumors. The skill of processing real world data that is a basic requirement in engineering was learnt doing this project. I learned ways to handle a large data set and presenting it in a proficient manner through the development of a complex program and a graphical user interface by using the concepts learned in lectures.
The aim of the project was to produce a LabVIEW control system for the new, improved, Palpatronix MK2 System! The objectives included the tissue search from a start point to end point using a grid of X-Y coordinates correspondingly palpate and read the response-force at each grid-point. The program was required to maintain a record of the current Max Force and its position and at the end of the program display the predicted tumour position and response force (i.e. the max. force and its position).
The coursework was broken into 3 stages; a program has to be developed to control a simulation where the simulation bit of the Palpatronix System was already provided, the next stage required programming of new hardware interface VIs (that would replace the VI’s of the simulation) to measure and control the Palpatronix system with a myDAQ. Finally the objective was to bring these all together to produce a fully functional controller for the real Palpatronix System.
The Project aim is to develop enhanced level of understanding of the performance of RFID systems and designing a prototype of the system with tags attached to objects.
The objectives included the development of a proof-of-concept intelligent transport vessel which uses RFID to determine its contents and communicate these with a central server. It also included the feasibility study of the project.
• Conduct a thorough literature review including the clinical context, existing commercial systems and relevant engineering science.
• Construct an engineering specification based on the literature review and in collaboration with the industry partner (Makercase).
• Develop and evaluate a series of lab prototypes for core aspects of the transport vessel system:
• Performance (e.g. range and reliability) of conventional RFID systems
• Multiple object tracking
• Interference with multiple vessels
• Communication microcontroller for intelligent stock-checking
• Explore enhancements to RFID tag technology.
The objective of this project was to build a mobile robot, which can sense the surroundings through the use of ultrasonic sensors. It involved the usage of XBee modules to communicate between the robot and the computer. The API mode and AT mode were studied. Rover 5 was used as a chassis for the robot and the frame was designed to hold electronic components and actuators. Four SRF02 ultrasonic rangers were used to get the readings from the surrounding. An mBed was used as a microcontroller for the robot, whereas an Arduino was connected to the computer to receive the data from the robot. The encoders were utilized to get the position of the robot which aided in localization and navigation. The servo motors were also used to oscillate horizontally and vertically. The height of the obstacles were measured with vertical oscillation of ultrasonic sensors and sensor mounted on the horizontal oscillating motor was used to get a better reading of the obstacle in the front of the robot. On mBed the programming was done in C++, processing was used on Arduino to decode the API packets and store the data on csv file format using processing. LabVIEW was used to process the csv file data and was eventually generated as a 3D map.
The project aim was to create a fully functional basic calculator using a TM4C123 Embedded system, to perform basic calculations using integer values such as multiplication, division, addition or subtractions. The secondary objectives of the project was to implement other functions into it, which included adding a password in order to enter the calculator, a menu that gives the option of going to the calculator or change password, syntax error, order of operations carried out in long calculations i.e. BODMAS (Brackets, order power of, division, multiplication, addition then subtraction). Another secondary objective was to add the ability to calculate operations that included floating numbers, negative numbers and the ability to clear the previous calculation in order to enter new calculations.
The objective was to design and build a water wheel made of aluminium sheet connected to a DC motor via a gear unit made of pulleys and belts that would generate power from a low head flow of water whilst suspended in a shallow flume. This project required the use of solid works for designing of the water wheel and producing engineering drawings to aid in the manufacture and assembly of the project in the workshop. The calculation required the consideration of blades area in contact with water, number of blades and the appropriate gear ratio required to produce enough electricity by looking at graphs such as power, torque vs. speed.
The aim was to design and build a computer controlled buggy with independent suspension,
able to travel over bumpy terrain and stop within a predefined region
in the fastest possible time.
The buggy was powered by DC motors. In this project I was in charge of dividing tasks, designing in SolidWorks different buggy variants and programming algorithms in LabVIEW when to stop it based on time and optical encoder readings. As a team, suspension designs were calculated by using a half cantilever beam design. The calculations involved the consideration of deflection, stiffness and dimensions for a number of aluminium sheets. The project also involved the manufacture and assembly of the buggy parts in the university workshops
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