People :: ECE 445 - Senior Design Laboratory

People

TA Office Hours

Held weekly in the senior design lab (ECEB 2070/2072). NOTE:

Blue names are office hours held online via zoom.

Names highlighted in orange are additional office hours available up to the due date of the soldering assignment.

There are no office hours during the weeks of board reviews or final demos.

Chat Room

Ask technical questions here:

Spring 2024 Instructors

Name Area
Prof. Arne Fliflet (Instructor)
3056
afliflet@illinois.edu		 microwave generation and applications
Prof. Viktor Gruev (Instructor)

vgruev@illinois.edu
Prof. Rakesh Kumar (Instructor)

rakeshk@illinois.edu
Prof. Olga Mironenko (Instructor)

olgamiro@illinois.edu
Prof. Michael Oelze (Instructor)
ECEB 2056
oelze@illinois.edu		 Biomedical Imaging, Acoustics, Nondestructive Testing
Prof. Jonathon Schuh (Instructor)
4066 ECEB
schuh4@illinois.edu		 Computational Physics, Electromechanics, Fluid Mechanics, Energy Storage, Tribology
Prof. Victoria Shao (Instructor)

yangshao@illinois.edu
Nikhil Arora (TA)

na32@illinois.edu		 Mechanical Design, Automotive Technologies, Additive Manufacturing
Sainath Barbhai (TA)

barbhai2@illinois.edu		 Design Engineering, Finite Element Method, Sensors and Actuators
Zutai Chen (TA)

zutaic2@illinois.edu
Vishal Dayalan (TA)

vishald2@illinois.edu		 Data Science and Analytics, Mechanical Design, CAD, Simulation, System Design, Robotics and Product Development
Luoyan Li (TA)

luoyanl2@illinois.edu		 machine learning, hardware acceleration
Zicheng Ma (TA)

zicheng5@illinois.edu		 Cloud computing, Database systems
Abhisheka Mathur Sekar (TA)

am113@illinois.edu		 Mechanical Engineering, Design, CAD Modelling and Simulation, Fluid Mechanics, MRI, Human centric designs
David Null (TA)

null2@illinois.edu		 Robotics, Computer Vision, Navigation, Coordinated Systems, Control Systems.
Jason Paximadas (TA)

jop2@illinois.edu		 Power electronics, control, and instrumentation
Sanjana Pingali (TA)

pingali4@illinois.edu		 Machine Learning Systems
Matthew Qi (TA)

mqi6@illinois.edu		 Power Electronics
Nithin Balaji Shanthini Praveena Purushothaman (TA)

ns49@illinois.edu		 My area of interest include Mechanical Design, Design Analysis, Supply Chain(Circular), Industry 4.0, Data Science and RPA.
Selva Subramaniam (TA)

ss170@illinois.edu
Koushik Udayachandran (TA)

koushik3@illinois.edu		 Unmanned aerial vehicles. Risk assesment. Autonomous underwater vehicles . Aircraft design. Systems engineering and integration . Flight testing
Surya Vasanth (TA)

vasanth4@illinois.edu		 Data Science and Analytics, Internet of Things, Human Centric Design
Angquan Yu (TA)

angquan2@illinois.edu
Douglas Yu (TA)

zeduoyu2@illinois.edu		 Hardware Design, Computer Architecture, AI
Jason Zhang (TA)

zekaiz2@illinois.edu		 AR, Robot and human interactions
Jialiang Zhang (TA)
CSL 403
jz23@illinois.edu		 Hardware Systems, Computer Architecture
Tianxiang Zheng (TA)

tz32@illinois.edu		 FPGA hls and mlir; Chronic signal processing; robotics and control; 3D printing;

Other Important People

https://ece.illinois.edu/about/directory/staff

Electronic Mouse (Cat Toy)

Jack Casey, Chuangy Zhang, Yingyu Zhang

Electronic Mouse (Cat Toy)

Featured Project

# Electronic Mouse (Cat Toy)

# Team Members:

- Yingyu Zhang (yzhan290)

- Chuangy Zhang (czhan30)

- Jack (John) Casey (jpcasey2)

# Problem Components:

Keeping up with the high energy drive of some cats can often be overwhelming for owners who often choose these pets because of their low maintenance compared to other animals. There is an increasing number of cats being used for service and emotional support animals, and with this, there is a need for an interactive cat toy with greater accessibility.

1. Get cats the enrichment they need

1. Get cats to chase the “mouse” around

1. Get cats fascinated by the “mouse”

1. Keep cats busy

1. Fulfill the need for cats’ hunting behaviors

1. Interactive fun between the cat and cat owner

1. Solve the shortcomings of electronic-remote-control-mouses that are out in the market

## Comparison with existing products

- Hexbug Mouse Robotic Cat Toy: Battery endurance is very low; For hard floors only

- GiGwi Interactive Cat Toy Mouse: Does not work on the carpet; Not sensitive to cat touch; Battery endurance is very low; Can't control remotely

# Solution

A remote-controlled cat toy is a solution that allows more cat owners to get interactive playtime with their pets. With our design, there will be no need to get low to the ground to adjust it often as it will go over most floor surfaces and in any direction with help from a strong motor and servos that won’t break from wall or cat impact. To prevent damage to household objects it will have IR sensors and accelerometers for use in self-driving modes. The toy will be run and powered by a Bluetooth microcontroller and a strong rechargeable battery to ensure playtime for hours.

## Subsystem 1 - Infrared(IR) Sensors & Accelerometer sensor

- IR sensors work with radar technology and they both emit and receive Infrared radiation. This kind of sensor has been used widely to detect nearby objects. We will use the IR sensors to detect if the mouse is surrounded by any obstacles.

- An accelerometer sensor measures the acceleration of any object in its rest frame. This kind of sensor has been used widely to capture the intensity of physical activities. We will use this sensor to detect if cats are playing with the mouse.

## Subsystem 2 - Microcontroller(ESP32)

- ESP32 is a dual-core microcontroller with integrated Wi-Fi and Bluetooth. This MCU has 520 KB of SRAM, 34 programmable GPIOs, 802.11 Wi-Fi, Bluetooth v4.2, and much more. This powerful microcontroller enables us to develop more powerful software and hardware and provides a lot of flexibility compared to ATMegaxxx.

Components(TBD):

- Product: [https://www.digikey.com/en/products/detail/espressif-systems/ESP32-WROOM-32/8544298](url)

- Datasheet: [http://esp32.net](url)

## Subsystem 3 - App

- We will develop an App that can remotely control the mouse.

1. Control the mouse to either move forward, backward, left, or right.

1. Turn on / off / flashing the LED eyes of the mouse

1. keep the cat owner informed about the battery level of the mouse

1. Change “modes”: (a). keep running randomly without stopping; (b). the cat activates the mouse; (c). runs in cycles(runs, stops, runs, stops…) intermittently (mouse hesitates to get cat’s curiosity up); (d). Turn OFF (completely)

## Subsystem 4 - Motors and Servo

- To enable maneuverability in all directions, we are planning to use 1 servo and 2 motors to drive the robotic mouse. The servo is used to control the direction of the mouse. Wheels will be directly mounted onto motors via hubs.

Components(TBD):

- Metal Gear Motors: [https://www.adafruit.com/product/3802](url)

- L9110H H-Bridge Motor Driver: [https://www.adafruit.com/product/4489](url)

## Subsystem 5 - Power Management

- We are planning to use a high capacity (5 Ah - 10 Ah), 3.7 volts lithium polymer battery to enable the long-last usage of the robotic mouse. Also, we are using the USB lithium polymer ion charging circuit to charge the battery.

Components(TBD):

- Lithium Polymer Ion Battery: [https://www.adafruit.com/product/5035](url)

- USB Lithium Polymer Ion Charger: [https://www.adafruit.com/product/259](url)

# Criterion for Success

1. Can go on tile, wood, AND carpet and alternate

1. Has a charge that lasts more than 10 min

1. Is maneuverable in all directions(not just forward and backward)

1. Can be controlled via remote (App)

1. Has a “cat-attractor”(feathers, string, ribbon, inner catnip, etc.) either attached to it or drags it behind (attractive appearance for cats)

1. Retains signal for at least 15 ft away

1. Eyes flash

1. Goes dormant when caught/touched by the cats (or when it bumps into something), reactivates (and changes direction) after a certain amount of time

1. all the “modes” worked as intended

Project Videos