Computer science professionals design, develop and analyze software and hardware utilized in all contexts, including business, industry, science and society. Because computers meet the needs of people, whether it be to solve their problems or enrich their lives, our graduates have a focus on the human component.
IRCNorthStar is a project sponsored in part by the IRC and executed by RefuTech Solution. The project involves creating a web application geared towards refugees trying to begin an online business. The web application will function as a marketplace where refugees can sell goods and services. It will allow them to create an account and list goods for pickup or shipping. Buyers can access the marketplace, browse goods by type, area, and price, and leave reviews. At the same time, sellers will have access to training resources to enhance their technical and business skills. The web application is accessible for sellers and buyers and easy to administrate.
https://youtu.be/z7fbgAsafbs?si=VQyL5vfvOi06YjPi
Our vision is geared towards creating an intuitively controlled hands free low-vision aid to assist with performing detailed tasks. This hardware is suppose to be a cheap alternative to the current low tech and highly expensive alternatives for those with low vision.
https://youtu.be/4AvCZhY9p5k
We are creating a cell that automates the gear etching process. We are going to be using a robot arm that moves gears into a spray booth. The arm drops off the gear in the spray booth and the booth will spray a specific solution called nital etch. The nital etch will help reveal damage called gear burn on the gears. The robot arm will then move the gear into an inspection booth where we will have cognex cameras checking to see if the gear has any gear burn. For the upcoming presentation, we will only be presenting the inspection part of the process.
The goal is to develop a small-scale turn-based strategy video game application. The application will feature an inviting presentation, new immersive game-play, charming artwork, and (time permitting) an original story. The goal is to give turn-based strategy fans a new, fun experience within their genre. Some features may be added or removed during development.
Casual and cozy pedometer app called Stroll and Grow that is simple to use and features a raccoon animal mascot named Rocky that will help you on your journey. Take a walk, earn strawberries as currency, exchange them with the raccoon for seeds, and plant and watch them grow. Harvest your prizes and create cute trinkets can you collect them all? A easygoing app without obligations; exercise at your own pace.
We are planning to work on a face recognition system for our senior design project. This software product aims to identify and recognize individuals, particularly students, based on specific facial characteristics such as eyes and mouth. The primary users targeted are colleges and universities. The general architecture of our software product comprises five key components: data collection, image processing, face detection, face recognition, and database management.
This project is meant to identify plants pathology through a convenient and device-agnostic interface. Initially we will focus on our intended users working within the agricultural industry. Our product will begin its life as a simple REST API to enable communication with the model, but the goal is to eventually have a comprehensive and cross-platform product that targets multiple industries.
In the fast-evolving landscape of Machine Learning (ML) and Artificial Intelligence (AI), our project proposes an intriguing competition between different ML-based AIs within a Unity game engine environment. Leveraging Unity's robust capabilities and the Machine Learning Agents toolkit, our aim is to showcase AI's potential by enabling these agents to learn, adapt, and compete autonomously over time. Key features include iterative training, reinforcement learning, avatar-world interaction, and complex actions in a 3D simulated space.
Our product is named Findr. It is a web application designed for connecting interns together to find roommates for their summer internships. The companies themselves would be the ones renting the software from us at a yearly rate. The website's main purpose from then is allowing interns to connect with each other so that theyre able to find roommates for the summer together. Students will be able to sign in and see other intern profiles and have an option to contact them if they're interested in being roommates with them. The general architecture is the site itself will be deployed using Vercel. The front end is being built with Next.JS, a react.JS framework. Tailwind CSS will be the CSS framework we use for styling the front end. An AWS API Gateway will then connect it to our backend and will primarily be AWS services. Such as AWS Lambda for computing and DynamoDB for storage.
Introducing a groundbreaking dating experience, our app merges the realms of music and romance to redefine the way connections are made online. Departing from traditional dating platforms, our innovative approach pivots on users' musical inclinations as the linchpin for forging meaningful relationships. At its core, the app presents users with vibrant playlists, serving as a gateway to discovering compatible matches. Employing an algorithm, we meticulously analyze users' music preferences, facilitating authentic connections with individuals who share similar tastes. By seamlessly integrating with leading music streaming services, our platform effortlessly curates user data to offer tailored recommendations and foster genuine compatibility. Moreover, users are empowered to craft comprehensive profiles that encapsulate their musical personas, igniting conversations through shared interests and collaborative playlists. Beyond matchmaking, our app transcends boundaries by spotlighting local music scenes and facilitating serendipitous encounters at live events and concerts. With every swipe and recommendation, our app sets the stage for serendipity, uniting hearts through the universal language of music. Welcome to a new era of dating, where harmonious connections await at every beat.
Jimbo is a machine learning AI that will take input through users' answers to slowly build up its knowledge about our tests. The tests will be hosted on a website and will consist of a randomly generated image with shapes on it. The user will be asked how many squares are present in the image, this will then be stored along with a key to train Jimbo. In the result, we want to show how user data can affect Jimbo's ability to take the test.
NutriTrack is a comprehensive digital tool designed to assist users in achieving their health and fitness goals. This app integrates several key features to provide a personalized and efficient experience tailored to individual needs and preferences. NutriTrack tracks users' calories, nutrition, weight, and generates individualized workout plans for the user.
A web-based application that automates the process of tip calculation. It takes in the total cash generated and divides the tips between the employees based on labor/hourly tip rate. Previous records of calculations are kept, and the user can export historical data. The goal of this project is to improve the payroll auditing process for the local restaurant Mustard Seed, located in Buhler, KS.
The project is a DIY security camera. Using a Raspberry Pi and camera module setup, the system will support features such as facial detection, a database of accepted faces, and notifications sent to users when faces are detected. The target users are anyone that desires a secure and safe home environment.
There are numerous repetitive actions people do on a daily basis: tasks like opening
To ensure the reliable supply of power to consumers, it is necessary to protect transmission systems against lightning strikes to the phase conductor. Generally, utilities use shield wires located on the top of transmission towers to divert lightning to ground; however, the geometry of the shield wire and phase conductor impact the probability of shield failure. This project develops a tool to compute the shield failure rate (SFR) for a given configuration to enable Evergy to maintain required service reliability. For a transmission tower utilizing a shield wire above the phase conductors, shield failure is related to the geometry of the tower and the shield and conducting wires. Since utilities have standards for how many shield failures are permitted per hundred miles of transmission line per year, the ability to project the number of failures is important for transmission planning. In this project, an SFR calculator is developed to compute the shield failure rate for a given transmission configuration, allowing engineers to determine whether the geometry satisfies lightning protection requirements. Calculations in the tool are based on the IEEE 1243 standard, and details about the model will be delivered to Evergy transmission engineers. This model will improve Evergy transmission planning and minimize lightning-induced outages. The final deliverables are a downloadable calculator tool with a report explaining how to use the tool, details about the incorporated calculations, and instructions for updating the tool.