Teams

The default setting for this page is to show Indianapolis and West Lafayette teams for Spring 2025. Use the filters below to help identify VIP teams and/or teams working on projects in a particular area of interest, applicable for ECE Senior Design, etc. Visit "Register for a Team" webpage for updated VIP subject code details.
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AAMED: Aero Astro MEDicine engineering

AAMED: This team will support skill development for students who are interested in space medicine, human performance, space biology, and astrobiology, with the parallel goal of producing meaningful engineering and scientific results in these fields.

ABC-PV: Agri, Building, Car Integrated Solar Photovoltaics

ABC-PV: The survival of our planet depends on, among other things, the effective generation and use of renewable energy. In this project, we will explore experimentally and theoretically how solar modules can be integrated with cities, cars, building, agricultural land, to create a vast/vibrant energy resource for the humanity.

AD RayOptics

AD RayOptics: Optical Tactile Sensing team will use computer vision techniques to build the next generation of tactile sensors

AERO: Aerodynamic research

AERO: Aerodynamic research team goal is to gain thorough knowledge of the state of the art in experimental aerodynamics research through publications and gain hardware skills for further discovery in an academic or industrial research laboratory.

AI for Education

AI for Education: The AI in Education (AIE) team investigates the broad potential of Large Language Models (LLMs) in education, ranging from AI chatbot tutor to adaptive learning systems, intelligent content creation, and automated assessment.

AIM: Artificial Intelligence in Music

AIM: Using Artificial Intelligence to Transform Music Performers' training and practice. This project will investigate how AI technology could transform the work of future music performers for both individual practice and collaborative practice.

AI_Industrial IoT Implementation (AI IIOT)

AI IIoT: AI IIOT team will implement sensors and internet of things (IoT) solutions at local manufacturing companies for data collection, visualization, and AI-based predictive analytics.

ASOL: Adaptive Systems and OPtimization Lab

ASOL: Adaptive Systems and Optimization Lab will focus on advancing real-time state estimation, control, and optimization techniques by integrating systems engineering principles with cutting-edge machine learning methodologies.

Advanced Engineering Calculator

This team will work on developing a scientific calculator from scratch that will enhance the efficiency of how engineering students interact with calculators.

Alle IoT - Improving Battery Life in IoT Security Solutions

AlleIoT: The Allegion Improving Battery Life in IoT Security Solutions team (ALLE-IoT). In security/access control applications the preferred energy source is battery power. The ALLE-IoT team works to improve battery life by working on other sources besides the primary cell.

AutoIC: Automation and Intelligent Construction

AutoIC: This team leverages computer vision techniques (e.g., object detection, object localization, and object tracking) to support automation in engineering data analytics and construction operations using robots.

AutoVeh: Autonomous Vehicles

AutoVeh: Experience real Autonomous Racing, the Autonomous Karting Series brings together students and industry professionals to push the boundaries of innovation and showcase the future of motorsports.

Autonomous Motorsports Purdue

AMP: Autonomous racing project including both software and hardware aspects, with emphasis on path planning, sensor fusion, and machine learning techniques.

BAJA

Purdue Baja Racing: This team designs, builds, and races a single-seat off-road buggy.

Bechtel IoT

Bechtel IoT: Research and Development in IoT and Edge Processing in the world of Industry 4.0

Beyond 5G

Beyond 5G: In this VIP team, the students will lead the efforts of prototyping and evaluating various technologies that could be used in the next generation wireless communication systems.

Bio-Inspired Digital Twins

Bio-inspired digital twins (BioTwins) - The team will continue previous work on bio-inspired designs of the morpho butterfly and snake skin to update functional designs, manufacture, and test bio-inspired structures.

BioNanoTech - Assisting Nerves with Data Communication

The Biomedical Nanotechnology team will explore the use of nanotechnology to assist nerves with data communication in biomedical applications, such as vision restoration, cancer treatment, and nerve communication.

Biotransport

The Biotransport team uses machine-learning approaches and physical models to enhance biotransport for medical and pharmaceutical applications.

Build My Startup

This team provides opportunities for student entrepreneurs to work with experienced entrepreneurs and build the students’ startup companies.

CAST: Child Automated Speech-to-Text Team

CAST: The focus of this project is developing an automated speech-to-text program that works with young children (ages 3-5). The team will develop the algorithms for transcription and a functional interface that is user-friendly.

CVGM: Computer Vision and Generative Models

CVGM: Computer Vision and Generative Models team will investigate methods of generative artificial intelligence to produce images or videos based on inputs that may include text, image, video, or music. This team will define metrics that evaluate generative models' abilities and limitations to produce desired outputs.

Cage Design - Measuring Brain Activity

This team works to develop a flexible, acrylic, live animal (rat) caging system and wire tether support system to enable measurement of EEGs (brain electrical activity) during epileptic seizures.

ChainVisor

ChainVisor: analyzing the security posture of IoT device software. The ChainVisor uses cybersecurity tools to understand and study how IoT devices are made and how they can be hacked.

Computational Quantum Electromagnetics (CQEM)

CQEM: This team will support the development of large-scale quantum information preserving computational electromagnetics modeling methods to improve the design/optimization process of a wide range of quantum technologies.

Data Science for Smart Cities

Smart Cities: This project aims to conduct interdisciplinary research to develop data analytics tools using robotics and autonomous sensing.

Digital Forest Measurement

DFM: Digital Forest Measurements team will collect ground measurements, set up permanent plots, and compile existing ground and digital datasets for the ArborAmerica Walnut Thinning test plots near West Point, IN. This builds upon work that a previous student has already done on the sites.

ECELabs.io

ECELabs.io: This team maintains and develops a website to provide online access to hardware used in various ECE (and other) labs.

EHealth

We develop mobile and web-based digital health applications to improve health care operations so that community residents can maintain/improve their health outcomes and community-based care providers can plan their workforce in a more cost-benefit manner.

ETD: Educational Technology Development

ETD: This team develops innovative tools to enhance online learning in engineering, focusing on AI-enhanced automated grading systems, interactive content delivery, and personalized assessments.

Earth History Visualization

EHV: This team will focus initially on making our planet's history easily accessible to both public and scientific audiences.

Electric & Autonomous Vehicles

This course aims to create a collaborative learning environment in which students will learn, discuss, and practice various aspects of electric and autonomous vehicles. Through popular open-source projects and other activities in support of evGrand Prix, students will apply their knowledge and gain real-world experience specific to the industry.

FEMTA Suborbital Spaceflight Test

FEMTA team will design and develop the hardware and software for a microgravity experiment to be flown in space on a reusable suborbital vehicle.

Foldtac

Foldtac: Optical Tactile Sensing team will use computer vision techniques to build the next generation of tactile sensors

Formula SAE

FSAE: This organization has the goal of designing, testing, and manufacturing a competitive racecar.

GAINS: Game-Dev AI NPC Simulation

GAINS: This team uses Unreal Engine to develop AI-driven NPCs and interactive environments for use in simulating complex human behaviors and dynamics. Students will develop skills in NPC and environment/level scripting, perception, and interactivity through machine learning based NPC performance trials.

GE Robotics and Autonomous Systems

GE AI: Manufacturing robotics: This team will work with GE research to develop innovative technologies to improve the scalability, flexibility, and agility of manufacturing automation platform with robotic operations.

Laser-Assisted Processing

LAP: This team is to perform research work in the laser-based manufacturing and materials processing area.

Lunabotics

Lbot: The team will design, build, test and prepare an autonomous robot for a lunar mining competition sponsored by NASA.

MEP: GoKart

MEP eKart: In collaboration with the Minority Engineering Program (MEP), the GoKart team will design, build, and test go-karts for Purdue's Grand Prix competition.

Machine Learning in Motion (MLM)

MLM: This team uses machine learning to build a system that detects humans, shapes, and motion in 3D space, with the objective to create an interface that all can use in the realm of dance performance and choreography. This team will work with Purdue Division of Dance DANC 351 students to develop this new technology.

Market Failure in Legal Research

There are benefits and pitfalls to the current method of law journal publication when compared to traditional systems of peer review. The result is that scholars from historically underrepresented groups or from under-resourced schools are priced out of this market. Purdue students will engage in direct research to map out this market failure and will help propose and design possible solutions.

Milestones

Milestones teams allow first-year and sophomore students to gain skills and knowledge within the context of three different areas: 1) automotive; 2) autonomous systems; and 3) grand challenges. After completing the a semester of Milestones, students will be prepared to effectively contribute to VIP teams that align with their interests and goals.

NanoHUB: Growing Global Impact Data Analytics and Machine Learning

NanoHUB: NanoHUB has served millions of visitors with online lectures and tutorials and enables 18,000 users annually to run over a million simulations. We have gathered millions of historical data sets over the last 10 years and are leaders in the world of science gateways. Can we use these data sets and make the user experiences better and grow the number of users? Can we develop business models that could help sustain NanoHUB in the long run?

Operations Research (ORSOL)

ORSOL: Operations Research (ORSOL) This team will work with industrial stakeholders to build prototype analytical solutions.

PetroML

PetroML: Machine learning for accelerating the optimal solution of oil blending problem

Posse: Securing Open-Source Software Ecosystem

Posse: The high-level goal of the team is to secure an open-source software ecosystem using state-of-the-art tools and techniques. There are three main thrusts (i.e., groups) in this project: static vulnerability analysis and CI best practices and hardening.

Program Analysis as a Service

This group works on integrating security education into programming courses. Specifically, we focus on developing frameworks and infrastructure to use existing security tools in the curriculum.

Purdue Aerial Robotics Team (PART)

Purdue Aerial Robotics Team (PART): This team works with the IEEE chapter's PART committee to develop autonomous UAV platforms with computer vision and machine learning applications.

Purdue Electric Racing

PER: This team will design, build, and tests electrical systems and power electronics for an electric vehicle.

Purdue Solar Racing (PSR)

PSR mixes aerodynamics with solar energy and mechanical design to build a solar powered car to race across America.

Quantum Algorithm Development

QuantAlgo: The team collaborates with IQPARC@Purdue and industry partners to create educational demonstrations and develop algorithms involving quantum information and science.

Race Horse Airway

RHA:Race Horse Airway team goal is to experimentally replicate the racing horse airway to investigate particle induced suboptimal function.

Race to Zero (R2Z): Supply Chain of Critical Minerals Needed in the Energy Transition for a Sustainable Future

R2Z: Supply Chain of Critical Minerals Needed in the Energy Transition for a Sustainable Future: The energy transition, which is increasing demand for critical minerals and metals, is putting pressure on the mining sector. Key to managing the critical minerals supply gap is assessing the inherent risks and opportunities. To hit net-zero emissions globally by 2050 (Race-to-Zero), the energy industry will require six times more mineral inputs by 2040.

Railside Robotics

Railside Robotics: This team will work on developing autonomous combat robots that interact and react to changing settings in an arena.

RoboMaster

RoboMaster: This team will develop computer vision and artificial intelligent systems for the robots in RoboMaster Club.

Robotic Exploration

The team will design, build and test a set of land and water-based robots to monitor the physico-chemical conditions of watersheds.

S3: Surgical Scene Segmentation

S3: Surgical Scene Segmentation goal is to develop a Graphic User Interface (GUI) and associated backend system that can automate and visualize semantic segmentation of intraoperative imaging in keyhole surgery.

SafeRegex

Enhance the regex engineering tools relied on by millions of open-source software projects.

Semiconductors@Birck

Semiconductors@Birck: This team will work on semiconductor materials and device fabrication and characterization at Birck Nanotechnology Center

Sigstore (Project Rekor)

Software Supply Chain Transparency: this team will work with industry and open source partners to build software infrastructure to cryptographically verify provenance of software

Solar Sail

Solar sail is a technology to propel spacecrafts using the optical pressure from the sun. Two video cameras will monitor the shape of the sail to estimate the optical pressure and the acceleration.

Study Spot Availability Tracker

The Study Spot Availability Tracker team is working on project that will make finding study spots easier for students by allowing them to check the availability of study spots on campus in real time.

TensorFlow Model Garden

This team's goal is to create a standard for worldwide machine learning model development. We are creating high-quality implementations of state-of-the-art machine learning models.

Trac-Sat

TracSat: This team will build and test various subsystems of nanosatellite and laser communications systems.

Visual and Data Analytics

Develop a visual analytic system based on sensor data using Javascript CSS and other front-end software development.

WMS - EVKart: Daniels/IBE EVKart

WMS - EV GoKart: Work as a team to modify and optimize the Krannert/IBE EV Go Kart. Strategize marketing tactics and sponsorship opportunities. Participate in community outreach projects. Combining all to have a chance to win the EV Go Kart Race.

WMS - IoT: Integration

WMS - IoT: Work with Laser Scanners, 3D Printers, and Virtual Reality to integrate technologies together to develop an end result.

WMS - MetaHorizon: Quest Pro

MWS-MetaHorizon: The project will entail building a new world in Horizon world that emulates a social space for students in Purdue to experience using VR headsets.

WMS EVKart Marketing

WMS EVKart Marketing: This team strategizes outreach and engagement opportunities for the EVKart project.

WMS EmpRet: WMS Employee Retention

WMS Employee Retention: This team will work with a global manufacturing company to develop a new employee retention system that includes digital Situational Judgement Tests (SJTs) and other means of connecting relevant employee and demographic data.

WMS French Knot

WMS French Knot: Students in this VIP course will discover the key principles of effective warehouse space utilization and process optimization in the context of a design and shipping company.
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