Estimated Resources Closing Summary Other Resources Financial Resources Project Schedule Computer Engineers William Hoang Gavin Ripley David Hawley Justin Rasmussen Zach Kotlarek Faculty Advisor Professor Ralph Patterson III Client ISU Department of Electrical and Computer Engineering Project Website Project Ongo-01 Personnel Efforts Wireless remote control High-capacity power storage systems Suspension systems DC-DC power supplies Speech synthesis systems Research technologies Purchase or build components Test and evaluate proposed solutions Implement components into system Solution Development Individual component or circuit analysis Manual operational testing Remoter operational testing Real environment testing of coordinated functionality Testing Considerations Technologies consideredProposed Approach 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, Project Requirements Introduction Abstract 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 Demonstrating technologies studied in computer and electrical engineering Assisting in guided tours of Coover hall Intended Users and Uses Assumptions Operators speak and read English Trained personnel are present during operation Enough power is available to run all components Limitations Fits through a 30-inch doorway Systems housed on chassis Power supply is finite and must be recharged periodically Assumptions and Limitations Wireless control through a graphical user interface (GUI) Manipulate objects up to five pounds in weight Self-correcting navigation and obstacle avoidance Technical documentation and schematics Components of the end product as shown in Figure 1: End Product Layout Expected End Product General Problem Statement To capture the interests of visitors and potential students, the College of Engineering needs an exciting demonstration of the technological capabilities of its students. Problem Statement General Solution – Approach Statement By integrating diverse disciplines to create an autonomous robot, OSCAR will embody the full range of technical skills studied at Iowa State University. OSCAR is an autonomous speech controlled robot created to spur the imagination and enhance the interest of students in the engineering programs. Combining power delivery, computer software, a sonar array, motors, and a mechanical arm, OSCAR provides the platform to demonstrate the extent of the engineering capabilities at Iowa State University. By the end of this semester, the College of Engineering will have a demonstrable robot that can be shown to the community with pride. OSCAR can be used to demonstrate the individual technical skills and inter-disciplinary coordination that come from an ISU education, while also providing a tactile, interactive, robotic ambassador for the University. Design Objectives Operational end effector arm Improved belt drive performance Wireless control through GUI Attractive and functional exterior Functional Requirements 192 MB PC RAM, 233 MHz CPU 100 ft. wireless range 12” radial enclosure 120° of end effector rotation Design Constraints Fix existing drive train Design and implement new end effector Develop GUI for end users Develop and implement navigation algorithm Measurable Milestones Navigation on smooth surfaces Recognition and avoidance of obstacles Placement and retrieval of objects Speech output This project will demonstrate the coordination of computer, electrical, and mechanical engineering students. OSCAR requires the implementation of several technologies including motor control, sonar array, navigation, software graphical interface, power systems, 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. Electrical Engineers Dung Nguyen David Staab Huy Nguyen Jason Sytsma Michael Larson Mechanical Engineers Gus Aramayo John Walvatne Figure 1: End product layout NameTotal Hours Gus Aramayo115 David Hawley92 William Hoang100 Zachary Kotlarek88 Michael Larson93 Dung Nguyen117 Huy Nguyen122 Justin Ramussen90 Gavin Ripley91 David Staab123 Jason Sytsma96 John Walvatne123 Total1250