2018-2019

This project consists of constructing a robotic arm that plays checkers against a person. A computer vision algorithm will determine the position of the pieces based on input from a camera. These positions will be used by the AI player to decide the best move. The chosen move will then be executed by the the arm through a set of orders that will be provided to the servo motors connected to the arm. The code that controls the servos and runs the AI player calculations and the machine vision algorithm will be running on a raspberry pi.

Fridgebridge allows users to see and keep track of what goes in and out of their fridge through an app on their phone. Using Google Vision and Raspberry Pi for image recognition and load sensors to track scarcity, your fridge can send you your grocery list to make sure you don’t forget anything important and to alert you if your food has expired. It is also connected to the National Food Database to help you keep track of your calorie intake.

We plan to sustain a hydroponic farm via a Raspberry Pi by providing nutrients through the water and making sure the water does not stagnate. Furthermore, we provide other information on the plant through visual monitoring as well as monitoring PH and water level. Detect hazards such as persistent low light and pest detection through sensors.

Our project goal is create a device that allows those with vision impairment better navigate through life. We are using machine vision to read the data from the Raspberry Pi cameras and then we are mapping the data to a grid of vibration motors that correlates to the users location from an obstacle. 

Modern racecar telemetry systems are used professionally so the cost of these systems are not a concern such as it is to amateur racers. Entry level data loggers cost upwards of 600 dollars so we set a goal to create an affordable yet efficient data acquisition system for racecars as long as they have an OBD-II port.  Even though this has been attempted in the past, we have also set another goal to make the software we develop user friendly since past attempts were difficult to use.

Description:

PinPoint is a low-cost and low-power clap detection and locating system. Designed using two Analog Devices Blackfin DSP and two Raspberry Pi W in a mesh/client-server configuration allows for wide-area clap detection and location. The Blackfin DSP dedicates its full compute power towards analysing claps, while the Raspberry Pi Zero W handles connectivity and server interfacing.

Implementation

PinPoint is composed of several sub-systems known as a node. Each node contains the following:

The Smart Power Strip (SPS) is motivated by current consumer interest in Internet of things Devices (IOT). Consumers desire the ability to automate their home environment. The SPS gives IOT funcality to non IOT devices. The SPS will allow a mobile client to control several outlets. The SPS will also send usage data collected to such a client.

Wonder if machines can detect your likely mood based off non-invasive body sensor readings?  This project, BioTune, aims to incorporate feedback from biological sensors to not only determine your mood, but also more importantly play back an appropriate type of music to either motivate you or calm you.

Demo: https://www.youtube.com/watch?v=71acJs3_jto

Smartwatch is the biggest signal in this IoT age, but because some of its critical limitations such as input method, it kind gets hard time getting as popular as it is supposed to be. But there is always a way to solve the problem, think about what if the way you interect with your smartwatch is not limited in such a tiny screen anymore, it could be exended onto you own arm or wrist, we believe it will be a revolutionary change on Smartwatch, or even wearable devices, industry.

Horus is an intelligent monitoring system for packages delivered to front porches. The project aims to solve the problem of package theft where a third of Americans reported their packages being stolen off of their front doors. 

Project Goal:  Our project aims to build a more affordable wireless sleep monitor.  The device, strapped to the patient, will record EEG and ECG data. This data will be wirelessly streamed to a server where it will be recorded and could then be presented to a physician to be analyzed.

Team:  David Sargent  (CSE), Alexander “Sasha” Sidenko (CSE), Can Vu (EE), Steven Lam (EE)

A radio that uses machine learning to determine whether the content it is receiving is music or an advertisement and switches the station in real time.

This project will use ultrasonic sensors to enhance a white cane, allowing it to inform the user of oncoming obstacles at a distance.The goal is to give the user more time to react when encountering upcoming obstacle.

Neos aims to solve one of the world's most common hazards. Despite progressive technological advancements in car safety, these improvements alone are not sufficient enough in reducing the amount of car accidents happening on a daily basis. With the introduction of the Smart Speed Limit Sign (SSS), Neos hopes to not only create a safer driving experience where everyone will be more knowledgeable and aware of the conditions they are driving in but also to decrease the costly bills associated with accidents.

The primary objective of the Third Eye is to improve the safety and functionality of a drone through the addition of face and eye detection control. We will be tracking the pilot’s eyes and face through the webcam of a laptop, which will show the live feed from the drone. By doing this, we hope that our drone and its supplemental software has the potential to reduce drone related incidents, making it safer and a more enjoyable experience.

The project will take input of the subject’s eye and shine a light from a flashlight at where they are looking. For example, disabled people in wheelchairs or people with impaired use of their hands can use the iTrack illumination system to intelligently illuminate an area they need without the use of their hands.

Stationary solar panels are inefficient because throughout the day sunlight does not hit the solar panel perpendicularly due to fact the sun moves across the sky. Heliotropic models aim to address this problem by "tracking" the sun similar to heliotropism in plants.

Our project aims to analyze different design choices for the optimal heliotropic solar panel:

O.S.T.R.I.C.H. is an indoor positioning system that allows stores to manage their inventory in real time and gives customers the ability to navigate to a desired product.

Sign Language is a universal language using gestures that is generally used by people who suffer from loss of hearing and speech to communicate with others. However, many people do not know sign language, making it difficult for those who are speech and hearing impaired to communicate with most people on a daily basis. The American Sign Language (ASL) Communications device aims to break the barrier between those who are unable to verbally communicate and those who can. We outfitted a glove with multiple sensors to capture motion and data from the hand guestures of the user.

The Advanced Garage Door System (AGDS) provides greater accessibility, and a higher level of safety that a standard garage door. Using various sensors and wireless communication protocols, the AGDS allows authorized users to monitor their garage door from anywhere. A webserver provides real-time feedback of the garage door status. This was created out of a real life necessity. One of the AGDS team members has a bad habit of forgetting to close the garage door.

This project builds an embedded IoT lock system able to detect, identify, unlock for recognized owners. The embedded system provides additional security to any type of lock system (home doors, lockers, safes). It uses image processing tools and networking software. It uses a raspberry pi, camera, servo, and a server which are connected and integrated together. A client pi or any other embedded system can send images to the server-side to process the images. Face recognition software is implemented at the server to process the images and recognize an owner.

Create an autonomous symbol tracking drone that can recognize everything from alpha numerics, paintings as well as logos and signs.

MissonPlanner is an open source ground control station application on Windows designed for autonomous vehicles including drones and copters. Via cable or wireless connections like Bluetooth, it allows users to plan autonomous missions for their autopilot, analyze the mission logs, and simulate a flight.

Our project is to improve the post flight logs analyzing portion such as optimizing the user interface and implementing a selective export feature that can export synchronized data as an Excel sheet.

Our Project aims to build a medical drone system, which allows its users to acquire medical support delivered by an AI-Controlled drone under emergencies. Users can send request through mobile Network to our server, and the server will appoint a self-navigated drone to the user`s location, which is controlled by an Android device through stable connection between Drone controller and drone, so that it will enable multi task to be processed simultaneously.

Medical Drone, Save Your Life, Right Away.

Goal

The Goal of our project is to design a single stage Radio Frequency Amplifier for the ARIANNA Collaboration. The amplifier will be attached to the bachend of an antenna and lowered into a hole in Antartica, alloweing the signal strength and characteristic to be preserved as it travels through a coaxial cable to the data acquisition box. 

 Purpose

Our project is to make a system that can use to measure the radiation pattern of millimeter wave antennas. The system consists of two parts. One part supports the antenna, and another one supports a motor and a rotating aluminum arm where a receiving open-ended waveguide. Millimeter wave antennas are important for radar applications, imaging systems, and future 5G communications.

Orchard Hills is a land development project that aims to deliver innovative lifestyles while meeting the demands of the surrounding communities it serves. Located in northern Irvine, bounded by roads 133, 261 and 241, this region conserves wildlife while actively facilitating space for the existing agargian economy. Free veteran housing was a continual priority throughout design based off the sociocultural climate of Irvine.

In light of UC Irvine’s status as a leading university in eco-friendliness, LLPH Development aims to develop a space that will serve as a green space, or “suburban oasis”, to the City of Irvine. The space will provide residents a pleasant travel destination minutes away from their homes. Our focus is to harness clean sources of energy and minimize our carbon footprint.  

The City of Irvine has sent bids for future project plans for Planning Area One, located in the northeast corner of Irvine. Planning Area One is 3,625 acre area of undeveloped lands and can provide the city potential economic growth. Tierra Engineering Group is composed of 4 members with many differernt area of expertise. Moreover, Tierra Engineering Group designed a conceptual development that include an amusement park and Asian focused commercial area.

MRC Engineering wants to share their plans for Orchard Hills development in Irvine, California! Irvine is known as a safe quite city with a few destinations for entertainment. MRC Engineering wants to bring LA life to the beautiful city of Irvine. The firm proposes to design an observatory, museum, concert hall, and hotels surrounded by commercial property!