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- Title
- Assessing and Improving Interprofessional Education at IIT (semester ?), IPRO 339: Assessing and Improving Interprofessional Education at IIT IPRO 339 Poster S06
- Creator
- Luxmi, Raj, Glenon, Thomas, Trevor, Nicole, Allen, Meredith, Clark, Brian, Curtis, Reginald, Fakhouri, Younan, Mirichev, Silvia
- Date
- 2006-07, 2006-07
- Description
-
The goal of IPRO 339 team is to create and select IPRO proposals, develop online training materials for IPRO Learning Objectives and develop...
Show moreThe goal of IPRO 339 team is to create and select IPRO proposals, develop online training materials for IPRO Learning Objectives and develop teamwork building games.
Sponsorship: Tom Jacobius, Mike Cama, Rebecca Peel, Abhinav Pamulaparthy
Deliverables for IPRO 339: Assessing and Improving Interprofessional Education at IIT for the Spring 2006 semester
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- Title
- infoMOTO - Information Tools to Enhance the Performance and Experience of Motorcyclists, Summer 2011, IPRO 308: Final tire poster
- Creator
- Hussain, Faraz, Sarsfield, Corey, Wang, Haochen, Perkins, Jeff, Charles, Joe, Siva, Arun
- Date
- 2011-06-17, 2011-07
- Description
-
infoMoto is a user-friendly and affordable aftermarket device which provides accessible feedback to the rider and mechanic as to the safety...
Show moreinfoMoto is a user-friendly and affordable aftermarket device which provides accessible feedback to the rider and mechanic as to the safety and performance of the motorcycle, which enhances the overall riding experience. Unlike existing standard equipment which provides minimal information, infoMoto notifies the user of impending malfunctions in addition to providing diagnostic information. This device may also help the designers of future models of motorcycles to head off any impeding problems, increasing the quality of their product.
IPRO 308: infoMOTO for Summer 2011
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- Title
- A Video Annotation and Indexing System (sequence unknown), IPRO 327 - Deliverables: IPRO 327 Project Plan F09
- Creator
- Dhagam, Karthik, Donchev, Alexander, Homawoo, Sergio, Litas, Alexander, Orlichenko, Anton, Osswald, Christian, Petsod, Jason, Rawlings, Ori, Shaffer, Joshua, Smith, Antoinette, Yates, Andrew, Yu, Hee Jeoung
- Date
- 2009-12
- Description
-
Much information available on the Web is in video format. The problem with this medium is users cannot comment on particular scenes within the...
Show moreMuch information available on the Web is in video format. The problem with this medium is users cannot comment on particular scenes within the videos and there is no method of searching for specific content within the videos. The team proposes to develop a system that will allow users to make fine-grained comments on scenes within the video and then to use these comments to aid in search within videos.
Deliverables for IPRO 327: A video annotation and indexing system for the fall 2009 semester
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- Title
- Technical and Market Integration of Wind Energy (semester?), IPRO 344: Wind Farm IPRO 344 Poster F06
- Creator
- Cho, Luke, Choi, Euddum, Dantapalli, Sushma, Duggirala, Sandhya, Kayvani, Bahram, Lotfjou, Azim, Song, Sung, Taulbee, Dan, Urbina, Michael, Yoo, Jieum
- Date
- 2006-12, 2006-12
- Description
-
The objective of IPRO-344 is the design of a wind turbine. To accomplish this, the following tasks must be completed: Selection of an...
Show moreThe objective of IPRO-344 is the design of a wind turbine. To accomplish this, the following tasks must be completed: Selection of an appropriate site, taking into account wind availability, proximity to transmission lines, environmental impact, and the selling price of electricity at the location. Mechanical design of the wind turbine, including the blades, turbine, and tower. Electrical design of the generator, grid interconnection, and control system. A study of the economics of the design, including a life-cycle cost analysis.
Sponsorship: Michael Polsky, Invenergy LLC
Deliverables for IPRO 344: Technical and Market Integration of Wind Energy for the Fall 2006 semester
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- Title
- Developing a Next-Generation Occupant Engagement System (Semester Unkown) IPRO 323: DevelopingANext-GenerationOccupantEngagementSystemIPRO323MidTermPresentationSp09
- Creator
- Sirk, Phillip, Ventullo, Kevin, Parkes, Brian, Shaffer, Joshua, Clark, Howard, Binet, Adrien, Veneziano, Marco, Guzek, Ewa
- Date
- 2009, 2009-05
- Description
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The IPRO is pending to be sponsored by ComEd in order to research possible methods of energy conservation. The focus of this project is to...
Show moreThe IPRO is pending to be sponsored by ComEd in order to research possible methods of energy conservation. The focus of this project is to design a system that encourages energy conserving behavior in residents by use of an interface that displays real time energy use of a residence. For this system to encourage conservation on a significant scale it is necessary that it can be installed in both new and existing buildings. The interface needs to give detailed enough data about the building’s energy consumption for the user to make well informed decisions of how to save energy, but at the same time the data must be presented in an easy to understand format. Also, the unit or units that provide the data must be accessible enough so that the user can at any time be aware of the impact that activating a certain device will have on energy consumption in their home.
Deliverables
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- Title
- Innovating Process Improvements in Manufacturing Operations (Semester Unknown) IPRO 304: Innovating Process Improvements in Manufacturing Operations IPRO 304 Poster1 F08
- Creator
- Akram, Asad, Bhatti, Talha, Hernandez, Yvonne, Kaneria, Satyam, Kerstens, Wesley, Khaliqdina, Shahmeer, Lu, Zhenlin, Quach, Vien, Siu, Philip, Teves, Jan, Thomas, Seth, Zheng, Min
- Date
- 2008, 2008-12
- Description
-
The purpose of this IPRO is to develop a robust, working prototype that can automatically monitor and detect a problem with a milling machine...
Show moreThe purpose of this IPRO is to develop a robust, working prototype that can automatically monitor and detect a problem with a milling machine at A. FInkl & Sons Co. This IPRO is in its fourth semester and there are two challenges remaining: (1) alerting management to the detection of broken teeth during machining; and (2) developing spatial representations of items undergoing heat treatment. However, A. Finkl & Sons has asked us to concentrate solely on the goal of finding a way to detect when a break occurs in one of the milling teeth and then alert the mechanic monitoring the machine in order to replace it. This system will involve measuring vibrations using an accelerometer or by the use of laser detection. The goal of this IPRO is to research, test, and inform A. FInkl & Sons of the best solution to invest in, therefore they can decide what is better for their company.
Sponsorship: A. Finkl & Sons Co
Deliverables
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- Title
- Oak Park Energy Efficiency & Carbon Reduction (Semester Unknown) IPRO 329: OakParkEnergyEfficiencyAndCarbonReductionIPRO329MidTermPresentationF10
- Creator
- Muyco, Michael, Broda, Dawid, Jardim, Thiago, Lakin, Colin, Moceri, Michael, Dexter, Eric, Kim, Tae-hoon, Lee, Seunggeun, Mohaimani, Aurash, Herman, Robert, Kungis, Andrew, Lim, Suk-hyun, Park, Minah
- Date
- 2010, 2010-12
- Description
-
The overall purpose of the IPRO 329 team is to work with the Village of Oak Park in order to implement a strategic plan to educate Oak Park...
Show moreThe overall purpose of the IPRO 329 team is to work with the Village of Oak Park in order to implement a strategic plan to educate Oak Park residents in making their homes more efficient and work toward a community wide reduction of energy and water usage. In doing so, we also hope to gain valuable experience in working in a team with members with varying degrees of experience and skills.
Sponsorship: Oak Park
Deliverables
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- Title
- OPTIMAL DECISION-MAKING OF INTERDEPENDENT TRANSPORTATION INVESTMENT ALTERNATIVES UNDER RISK AND UNCERTAINTY
- Creator
- Zhou, Bei
- Date
- 2012-07-12, 2012-07
- Description
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With increasing demand for a more efficient transportation system and decreasing budget levels, transportation investment decision-making that...
Show moreWith increasing demand for a more efficient transportation system and decreasing budget levels, transportation investment decision-making that aims to select the optimal project portfolio which yields maximized overall networkwide benefits in terms of economy, society and environment has increasingly become important. This dissertation has conducted an in-depth investigation into project evaluation and project selection that are crucial steps of transportation decision-making. It begins with information search through a review of existing methods for project evaluation and selection. Several limitations of existing methods have been revealed. In particular, they are in lack of considerations in network impacts of a single investment project, interdependencies of simultaneously implementing multiple projects, and restrictions of total risk of overall benefits of selected projects within an acceptable level. Then, a new methodology is proposed for networkwide traffic assignments, project evaluation, and project selection. A state-of-art large scale transportation simulation software, the TRansportation ANalysis and SIMulation System (TRANSIMS) toolbox, is utilized to perform networkwide dynamic traffic assignments to general redistributed traffic volumes after project implementation needed as inputs for project evaluation. For project evaluation, a life-cycle cost analysis approach is developed to consider all agency costs and user costs in the service life-cycle of two primary categories of highway facilities: pavements and bridges. In order to enhance the robustness of analytical results, risk and uncertainty of input factors concerning traffic volumes, project costs, and discount rates are incorporated into the life-cycle cost computation using @Risk Palisade software, Version 5.5. For project selection, two-stage enhanced Knapsack model, hypergraph Knapsack, and two-stage hypergraph Knapsack model are proposed to choose the best sub-collection of interdependent projects to yield maximized overall benefits at various budget levels, while controlling the total risk within an acceptable level. In terms of two-stage Knapsack model, the Markowitz mean-variance model is utilized for stage-one optimization to generate minimized total risk of all projects subject to constraints of available budget and minimum benefits to be expected for individual projects. At the second stage, the Knapsack model is enhanced by adding stage-one optimization solution as one more constraint. Such a treatment could help control the total risk of overall benefits of all selected projects at a desirable level. Moreover, a hypergraph Knapsack model is introduced to capture project network impacts and interdependency relationships. In order to simultaneously address issues of networkwide project impacts, interdependencies, and total risk levels, a two-stage hypergraph Knapsack model is developed. Efficient solution algorithms are developed and coded to Frontline Solver Xpress V55 software to solve the two-stage Knapsack model, hypergraph Knapsack model, and two-stage hypergraph Knapsack model, respectively. Three computational studies are performed to apply the proposed methodology using two sets of data, including six-year data on 672 candidate projects proposed by Indiana Department of Transportation for state highway programming and 6 mega projects proposed by Illinois State Toll Highway Authority for tollway network major capital improvements. It has generally found that the use of two-stage Knapsack model could readily control the total risk of overall benefits of selected projects at a desirable level, but it may result in significant changes in the overall benefits for different budget levels where significant differences in risks are associated with individual projects. The hypergraph Knapsack model could effectively handle issues of networkwide project impacts and interdependency relationships. However, the two-stage hypergraph Knapsack model appears to be most robust in that it could simultaneously resolve the issues of networkwide project impacts, interdependency relationships, and total risks of overall project benefits, thus generating most reliable information to support rational transportation investment decision-making.
Ph.D. in Civil Engineering, July 2012
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- Title
- Delta Hook Tech (Semester Unknown) IPRO 358: DeltaHookTechIPRO358MidTermPresentationSu09
- Creator
- Bistriceanu, Bogdan, Boyer, Robert, Champlin, Austin, Choitz, Rachel, Divito, Michael, Edwards, Herbert, Egland, Erik, Gaonkar, Mohit, Lai, James, Obaid, Hamza, Pop, Sabina, Staats, Andrew, Ton, Jimmy, Zhu, Patrick
- Date
- 2009, 2009-12
- Description
-
During the summer 2009 semester, IPRO 358 plans to develop mock-ups of the Delta Hook Technology (DHT) and to lay the foundation for a...
Show moreDuring the summer 2009 semester, IPRO 358 plans to develop mock-ups of the Delta Hook Technology (DHT) and to lay the foundation for a business model for Sparrowhawk, LLC, an early stage company. Sparrowhawk has investigated the concept for an innovative fishing hook that is not currently on the market or ready to be launched. The IPRO team will work together to approach the process of designing mock-ups of the Delta Hook Technology (DHT), testing the mock-ups, and determining measures that can be taken to improve the DHT. Subsequent mock-ups will continue to improve based on results of the product testing. Simultaneously, we will do market research in order to identify the target market, determine price points, and develop marketing strategies for DHT.
Sponsorship: Sparrowhawk, Delta Hook Technologies
Deliverables
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- Title
- Homeland Security Vulnerability Assessment Tool (Fall 2003) IPRO 373: Scoping Health Care Informatics IPRO372%3A472 Fall2003 Final Presentation
- Creator
- Fitzgerald, Bill, Land, Cameron, Lazarz, Steve, Davids, Carol, Kozina, Damian, Hajek, Jeremy, Guy, Chuck, Cruz, Gil, Sharp, Mike
- Date
- 2003, 2003-12
- Description
-
This IPRO is designed to support the Department of Homeland Security national security initiatives as outlined by the United States Government...
Show moreThis IPRO is designed to support the Department of Homeland Security national security initiatives as outlined by the United States Government. The goal is to design a project that supports homeland security compliance guidelines. For example, depending upon interests of the group, a software program could be developed containing a matrix of risk and preventive factors which could be used to assess how well an organization meets Homeland Security Guidelines. Items might involve public policy, computer technology, facilities, transportation, communications, EPA, security, water and air. The need to protect our facilities and people in the Chicago area given recent terrorist activities and the frequent, heightened state of alerts is critical. A well-defined homeland security project can help in contributing to the initiative of establishing homeland readiness.This hands-on project will afford students the opportunity to research an apply concepts of transportation, mechanical, electrical, power, economics, and especially computer technology and engineering to homeland security.
Sponsorship: IIT Collaboratory for Interprofessional Studies
Project Plan for IPRO 373: Homeland Security Vulnerability Assessment Tool for Fall 2003 semester
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- Title
- GREEN BUILDING DESIGN CONCEPT and INTEGRATION (Semester Unknown) IPRO 335: GreenBuidingDesignConceptandIntegrationIPRO335FinalPresentationF09
- Creator
- Avanessian, Aris, Banda, Justine, Bergerson, Joshua, Burke, Jeffrey, Christo, Robert, Dexter, Eric, Kim, Kibum, Mey, Andrew, Okunaga, Jonathan, Razeq, Ali, Schaefer, Jacqueline, Thovar Leon, Adrian, Um, Hye
- Date
- 2009, 2009-12
- Description
-
Green Building design is becoming a vast topic in today’s world. As times change, and energy sources become limited and more expensive, we...
Show moreGreen Building design is becoming a vast topic in today’s world. As times change, and energy sources become limited and more expensive, we need to find more ways to conserve energy. This IPRO’s main goal is to research these alternative energy sources, methods, and uses; then implement them into a feasible design of our own.
Deliverables
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- Title
- Semantic Web News Engine (Semester Unknown) IPRO 327: SemanticWebNewsEngineIPRO327EthicsSp09
- Creator
- Copeland, Daniel, Estola, Evan, Kaim, Max, Mundrawala, Jay, Peterson, Steven, Price Jr, Daniel, Rawlings, Ori, Rodriguez, Laura, Sirotzke, Daniel
- Date
- 2009, 2009-05
- Description
-
The Swyne Project‟s objective is to extend the capabilities of the semantic search engine developed in the previous semester of this...
Show moreThe Swyne Project‟s objective is to extend the capabilities of the semantic search engine developed in the previous semester of this particular IPRO project. Proposed extensions include the ability to search for “entities” (e.g., people) and their relationships to other entities in a fact database and implementing user interface support for the extensions. Another goal of the Swyne Project is to work on our collective soft skills. These include, but are not limited to, interpersonal communications, presentations, management functions, and time management. These skills are all critical to not only a successful project, but also a successful career outside of college. Our search engine will hopefully be an inspiration to others who are interested in working on a semantic search engine in the future and expanding upon our results.
Deliverables
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- Title
- SYSTEM SUPPORT FOR RESILIENCE IN LARGE-SCALE PARALLEL SYSTEMS: FROM CHECKPOINTING TO MAPREDUCE
- Creator
- Jin, Hui
- Date
- 2012-05-31, 2012-05
- Description
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High-Performance Computing (HPC) has passed the Petascale mark and is moving forward to Exascale. As the system ensemble size continues to...
Show moreHigh-Performance Computing (HPC) has passed the Petascale mark and is moving forward to Exascale. As the system ensemble size continues to grow, the occurrence of failures is the norm rather than the exception during the execution of parallel applications. Resilience is widely recognized as one of the key obstacles towards Exascale computing. Checkpointing is currently the de-facto fault tolerant mechanism for parallel applications. However, parallel checkpointing at scale usually generates bursts of concurrent I/O requests, imposes considerable overhead to I/O subsystems, and limits the scalability of parallel applications. Despite the doubt in the feasibility of checkpointing continues to increase, there is still no promising alternative on the horizon yet to replace checkpointing. MapReduce is a new programming model for massive data processing. It has demonstrated a compelling potential in reshaping the landscape of HPC from various perspectives. The resilience of MapReduce applications and its potential in benefiting HPC fault tolerance are active research topics that require extensive investigation. This thesis work targets at building a systematic framework to support resilience in large-scale parallel systems. We address the identified checkpointing performance issue through a three-fold approach: reduce the I/O overhead, exploit storage alternatives, and determine the optimistic checkpointing frequency. This three-fold approach is achieved with three different mechanisms, namely system coordination and scheduling, the utilization of MapReduce framework, and stochastic modeling. To deal with the increasing concerns about MapReduce resilience, we also strive to improve the reliability of MapReduce applications, and investigate the tradeoffs in the programming model selection (e.g., MPI v.s. MapReduce) from the perspective of resilience. This thesis provides a thorough study and a practical solution for solving the outstanding resilience problem of large-scale MPI-based HPC applications and beyond. It makes a noticeable contribution to the state-of-the-art and opens a new research direction for many to follow.
Ph.D. in Computer Science, May 2012
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- Title
- Data Migration Tool for CDN XL (semester?), IPRO 349C: Data Migration tool for CDN XL IPRO 349 2.3 Poster S07
- Creator
- Groth, Kristel, Tam, Jonathan, Juda, Damian, Fafara, Lukasz
- Date
- 2007-07, 2007-07
- Description
-
The objective of this IPRO subteam is the improvement of the importation of data to CDN XL in small and medium enterprises sector. This...
Show moreThe objective of this IPRO subteam is the improvement of the importation of data to CDN XL in small and medium enterprises sector. This subteam is working toward the problem of improving the way data is imported from customer to CDN XL (an ERP system). The methodology to be employed is the agile methodology. The expected result of this project is a preliminary software system for importing data from Excel or other heterogeneous files to CDN XL. The goal of the team’s project is to develop a program to for the importation of data from customers to be imported into the CDN XL system to be used by the deployers. The deliverables at the end of the project will be a template for customers, program to extract the data. The team will examine the process of importing the data to develop a program that is generic enough to import different types of data. This project plan is separated into the objective section, where the objective of the subteam is fully explained. In the background section, the background of the project and sponsor are detailed. Also, a diagram of how the CDN XL system works is included. Furthermore, the technology used and possible ethical issues are addressed. The third section describes the methodology being used. The way documentation of work is also addressed in this section. In addition, the risk management and quality assurance will be addressed in this section. The expected results are explained in the fourth section – the form it is in as well as potential products that might arise from this project. In the sixth section, the tasks, duration of each task and milestones are included. The team members are introduced in the seventh section. Finally, in the last section, the designation of roles – what each team member is responsible for – is detailed.
Sponsorship: Comarch
Deliverables for IPRI 349C: Data Migration Tool for CDN XL for the Summer 2007 semester
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- Title
- Assessing and Improving Interprofessional Education at IIT (semester ?), IPRO 339: iKnow Training and Testing IPRO 339 Project Plan F04
- Creator
- Strokova, Victoria, Vajaria, Sonia, Dimitrov, Petar, Dronamraju, Rahul, Gupta, Nishi, Pacheco, Paul, Chuah, Choong Hui, Gutkovsky, Vladimir
- Date
- 2004-12, 2004-12
- Description
-
To define the body knowledge of Project Management, Team Work and Communication. Identifying alternate methods for teaching or delivering the...
Show moreTo define the body knowledge of Project Management, Team Work and Communication. Identifying alternate methods for teaching or delivering the body knowledge. Experimenting with self help websites (development of content and its structuring for self-help websites technically implemented by IPRO 338).
Sponsorship: Tom Jacobius
Deliverables for IPRO 339: Assessing and Improving Interprofessional Education at IIT for the Fall 2004 semester
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- Title
- Enhancing the Reliability and Performance of Paper Shredders (semester?), IPRO 321: Enhancing the Reliability and Perf of Paper Shredders IPRO 321 Final Report F07
- Creator
- Choi, Migun, Choriki, Justin, Flicek, Stephen, Huang, Yuxiong, Inouye, Tyler, King, Richard, Marinov, Plamen, Nagwan, Angad, Nielson, Garrett, Obst, Leslie, Pesik, Vesna, Swaidner, Kyle, Toyama, Brandee, Valls, Nil
- Date
- 2007-12, 2007-12
- Description
-
1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount...
Show more1. Determine the amount of force to cut 6, 8, 10 sheets of 20 lb paper, taking into account the width and length of the shred. Once the amount of force is determined, develop a computer simulation model that can predict the amount of force required based upon the following variable inputs: number of sheets, shred width, and shred length. 2. Through computer simulation or prototype development, design an efficient gear train that optimizes the number of gears and minimizes the motor size based upon data obtained from previous semester’s data. The goal is to develop and simulate a gear train that can withstand 500 cycles at maximum sheet capacity. 3. Develop acoustical sound dampeners or “tune” the shredder to reduce the amount of noise created during the shredding process, leveraging information obtained from previous semesters’ data. The goal is to reduce the noise output by 10 decibels
Sponsorship: Seth Lewis, President of The Manhattan Group
Deliverables for IPRO 321: Enhancing the Reliability and Performance of Paper Shredders for the Fall 2007 semester
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- Title
- Zoo Tech (Semester Unknown) IPRO 318: ZooTechIPRO318FinalReportSp10_redacted
- Creator
- Alesia, Anthony, Chen, Qiaogiao, Chiba, Mitsuru, Dreher, Taylor, Dziuba, David, Eid, Aya, Romit, Girdhar, Hutchful, Albert, Ibrahim, Suliman, Lan, Jiang, Miller, Mathew, Moraga, Justo, Puzewski, Jennifer, Szulyk, Natalie, Winterbauer, Adam, Xing, Jiangi
- Date
- 2010, 2010-05
- Description
-
The members of IPRO 318 are teaming up with the Brookfield Zoo to develop an iPhone application which will enhance the visitors‟ experience...
Show moreThe members of IPRO 318 are teaming up with the Brookfield Zoo to develop an iPhone application which will enhance the visitors‟ experience and interactions with the Zoo environment. This educational module will be broken down into two major components. First, the Zoo education staff and animal researchers need help in developing a guided inquiry process that will assist users in identifying animals. By organizing the hierarchical structure of information provided by the Zoo, and coupling this with the tools available on the iPhone, IPRO 318 seeks to design an efficient, educational, and entertaining means of utilizing modern technology to identify animals in the Zoo and beyond.
Sponsorship: Brookfield Zoo
Deliverables
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- Title
- Impact of Sulfur Capture Technology In Coal Power Plants (Semester Unknown) IPRO 302: ImpactsOfSulfurCaptureTechnologyInCoalPowerPlantsIPRO302PosterF09
- Creator
- Chmielewski, Don, Contreras, Abraham, Deboth, Ray, Dickman, Justin, Enadeghe, Gregory, Garza Rodriguez, Hector, Gottlieb, Myron, Haddad, Michael, Kyle, Ryan, Mongillo, Michael, Murphy, Ryan, Shonubi, Oluwaseun, Swillum, Bryce, Wolber, Brian, Worthon, Terrika
- Date
- 2009, 2009-12
- Description
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Our team will investigate the net impact of sulfur capture technologies used in current and next generation power plants in the United States....
Show moreOur team will investigate the net impact of sulfur capture technologies used in current and next generation power plants in the United States. We will use this knowledge to determine which sulfur capture technologies produce the greatest benefit for industry and society and to find the marketability of the sulfur byproducts created in these power plants.
Deliverables
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- Title
- Information Design for Plant Management to Predict Equipment Failure (Semester Unknown) IPRO 303: Information Design for Plant Management to Predict Equipment Failure IPRO 303 Ethics Sp08
- Creator
- Dodds, Jacob, Erogbogbo, Samad, Fleming, Rachel, Fujimoto, Haruko, Hazariwala, Nirav, Kim, Jihyung, Lee, Sangwook, Mcanally, Arthur, Simons, Ray
- Date
- 2008, 2008-05
- Description
-
IPRO 303 is working on the user interface for SmartSignal Corporation’s software which predicts equipment failures in coal fired power plants....
Show moreIPRO 303 is working on the user interface for SmartSignal Corporation’s software which predicts equipment failures in coal fired power plants. We are now in the third stage of the project. We are to deliver the user interface of the software based on the studies done by two previous semesters. SmartSignal suggested that we also consider specific elements of the software such as the clear presentation of developing fault information, and the efficient communication system between users. An appropriate UI will utilize SmartSignal’s predictive analysis software to provide an efficient and clear means for power plant personnel to: · Predict or identify equipment faults · Understand the predicted faults · Prioritize the disposition of the predicted faults or highlight urgent or important faults · Reduce the need for plant personnel to have many years of experience or “institutional knowledge” The ultimate goal of this project is to introduce an innovative approach to the user interface which SmartSignal can use for predicting equipment failures in coal fire power plants. To realize this, we set these objectives. · Research and collect information relative to the User Interfaces [UI] from the first hand users of the software while examining the study done by the previous IPRO303. · Create the Requirements Document for the UI in light of the concerns expressed by SmartSignal and the results of research. · Generate several possible UIs based upon the Requirements Document stated above. · Select one of the Several UI for development of details and revise it based upon the input from SmartSignal. · Add details and finalize the design of the selected UI.
Sponsorship: SmartSignal
Deliverables
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- Title
- Designing Affordable Housing out of Shipping Containers for Ciudad Juarez, Mexico (Semester Unknown) IPRO 339: Designing Affordable Housing out of Shipping Containers for Ciudad Juarez, Mexico IPRO 339 Final Presentation F08
- Creator
- Dole, Shreyas, Eliyahu, Haim, Moore, Jeremy, O’neil, Ben, Olson, Heather, Peroni, Joe
- Date
- 2008, 2008-12
- Description
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Currently there are several countries throughout the world that have a large need for affordable housing. Our IPRO is currently dealing with...
Show moreCurrently there are several countries throughout the world that have a large need for affordable housing. Our IPRO is currently dealing with solutions for Juarez, Mexico and Chicago, Illinois. These two places are very different in climate, culture, as well as economy. Our IPRO team this semester will focus on applying the prototype from last two semesters to Juarez, Mexico, while making adjustments as needed. We will continue the research into systems which will be advantageous to each situation and develop them accordingly. Once we get a better understanding as to how we can apply our prototype to Juarez situation we
Deliverables
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