Abstract Proposed Approach Solution Development Project Requirements Estimated Resources Other Resources Financial Resources Project Schedule Computer.

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Presentation transcript:

Abstract Proposed Approach Solution Development Project Requirements Estimated Resources Other Resources Financial Resources Project Schedule Computer Engineers David Hawley Gavin Ripley Jeff Parent Justin Ramussen Zachary Kotlarek Client ISU Department of Electrical and Computer Engineering Faculty Advisor Professor Ralph Patterson III Project Ongo-01 Website Personnel Efforts Wireless remote control Sensor array Speech recognition software Power storage and conversion End effector Research technologies Purchase or build components Test and evaluate proposed solutions Implement components into system New software testing Automated software testing Signal output of wheel tachometer circuit Computer power supply testing Testing Considerations Technologies considered Item DescriptionCost Sensory Hardware $ Batteries and Power Supplies $ Motors and Controls $ Computer Hardware and Software $ Misc. Electronic Components $ Chassis Fabrication $ Project Poster $ Total Estimated Materials $ 2, Introduction Indoor or outdoor (under favorable weather conditions) 14 – 33 degrees Celsius No drop-offs or stairs Environmental obstacles must be at least 2.5 feet high Operating Environment Users Ongo-01 team members Visitors to ISU campus ISU faculty and staff Uses Raise interest in engineering through Assisting in guided tours of Coover hall Intended Users and Uses Assumptions and Limitations Distance-based motion controls Movement control through vocal commands Expected End Product General Problem Statement To develop a fully functional robot that can be easily used to demonstrate the technological capabilities of students in the College of Engineering to visitors. Problem Statement General Solution – Approach Statement The team will focus on clean design and implementation of sensor systems, an end effector, speech recognition abilities, and a remote graphical user interface. OSCAR is an autonomous speech controlled robot created to be an interesting, hands on demonstration of the technical skills learned by students in the engineering programs. Using power delivery, computer software, a sonar array, motors and a mechanical arm in a student designed and implemented end product, OSCAR provides a platform to display the extent of the engineering capabilities at Iowa State University. By the end of the semester, the College of Engineering will have a robotic ambassador to show potential students and benefactors the achievement level of Iowa State students. Design Objectives Operational end effector arm Functioning SONAR array Install Wheel Tachometer Implement voice command software Functional Requirements Computer CPU and RAM sizes Computer expansion capacity Wireless distance less than 328’ Wireless connection rate up to 11 mbps Battery and power converter ratings Design Constraints Design end effector controller Install wheel tachometers Implement speech recognition Implement end effector Develop navigational algorithm Measurable Milestones Object manipulation via end effector Autonomous navigation on smooth surface Wireless control through GUI Respond to predefined voice commands Electrical Engineers Kevin Cantu Jason Sytsma Jawad Haider Michael Larson Peter Rufino Philip Derr Awareness of surrounding obstructions End effector implementation NameHoursLabor Cost ($10.50 / hr) Kevin Cantu105$ 1, Philip Derr91$ Jawad Haider76$ David Hawley75$ Zachary Kotlarek84$ Michael Larson91$ Jeff Parent81$ Justin Ramussen83$ Gavin Ripley71$ Peter Rufino87$ Jason Sytsma92$ Totals936$ 9, Materials$ 2, Labor ($10.50/hr)$ 9, Total Cost$ 12, Closing Summary This project will demonstrate the coordination of computer, electrical, and mechanical engineering students. OSCAR requires the implementation of several technologies including motor control, a sonar array, a navigation system, a software graphical interface, power systems, voice recognition, and a mechanical arm. To continue to develop interest and attract attention to ISU engineering, new technologies are continually incorporated to improve OSCAR’s capabilities in the vanguard of robotics technology. demonstrations Limitations Fits through a 30-inch doorway 328 ft wireless connection between Power supply is finite and must be robot and PC recharged periodically Assumptions English proficient operators Trained personnel operating the robot Battery contains enough power to operate Microcontroller returns accurate data components