I need a report made about the power point slides make any change you see necessary thanks
ENR-100 Page 1 of 2 Bunker Hill Community College Intro to Engineering-Spring, 2020 A.Martha Fernandes Used with Permission of Prof.Lavine ENR-101-T1 Introduction to Engineering Final Design Project Written Technical Report Requirements The Technical Report is due at the beginning of your lab session (6:00pm) on Monday, December 16. Submit the report in person when you arrive to give your Oral Presentation. E-mailed reports will not be accepted. Each design team will submit one report. The Technical Report should appear professional throughout. The report should reflect good technical writing principles, including proper grammar and a style that is appropriate for a technical audience of your ability. The text must be typewritten or generated with word-processing software. Drawings should be done in ink or by computer. If any copies of material are included, they should be readable. The Technical Report must include the following components, in this order: 1. Title Page (1 page) Project Title Simple, but interesting, graphic Project Due Date Names of Team Members 2. Table of Contents (1-2 pages) A list of all the sections and subsections of the report with corresponding page numbers. 3. Problem Statement (1 page) A clear and concise statement of the problem and general constraints. 4. Summary of Findings (1 page + any drawings) Summarize the details of the solution. This section should be written after the rest of the report and should include enough detail so that a technical third party can understand your final system design. Examples of information to list include specific components and their sizes, orientation and placement of components, drawings of the complete system, and a summary of the costs and benefits of your final solution. This section is similar to an abstract. ENR-100 Page 2 of 2 Bunker Hill Community College Intro to Engineering-Spring, 2020 A.Martha Fernandes Used with Permission of Prof.Lavine ENR-101-T1 5. Narrative (15 pages maximum) This section describes your development and design process, and fully describes your final system design. Specifically, this section must include: Clarification and assessment of the problem (provide sufficient details to facilitate understanding of the problem) Description of all solutions considered, and description of the logic used to narrow the solution pool Development and analysis of the final solution – calculations supporting the design (incl. cost/benefit analysis) and descriptions of any constraints that influenced selection of components Ethical considerations associated with your solution(s). 6. Bibliography/References List all publications, websites, tables, documents, and interviews that were used during the design process and/or cited as part of the Technical Report. Remember, any knowledge that is not common knowledge should be cited. 7. Appendices Include additional calculations and/or drawings in support of the final design. If you used a spreadsheet or other calculation package from an outside source, include a copy of that package here. Separate appendices are needed for each type of information. Grading Grading will be based on the quality of your report relative to the requirements listed above. See the assessment tool for an understanding of the general weighting of each component. Grades of late reports will be significantly reduced (at least 10% of available points if more than 15 minutes late). Observations and Learnings Report The Observations and Learnings Report (1 page maximum) is due by 12:00 p.m. EST (Noon) on Wednesday, December 18, via e-mail to
[email protected]. Each team member must submit their own report. Use the Observations and Learning Report to assess your personal experiences during the Final Design Project. Questions you should address include: Was this a positive experience for you? Why or why not? Explain. What did you learn? What was done well? What could have been done better? Explain. What would you do differently next time? Aidan, Patrick, Luis Team Communication Plan: ● Text 3/11/20 ● Email(Bunker Hill, and Personal) ● Google Docs ● Voice and Video conferences Team Agreement: ● Work will be done in equal shares among all group members ● Communicate properly and effectively ● Manage time so others can succeed ● Contribute useful ideas ● Be nice to everyone Initial Design Review Problem statement: The computer mouse is something that is meant for the person with no hand control difficulties, the shape, size, and mechanical aspects all allow for people with normal functioning hands to use it. People with disabilities that don't allow them to use their hands to the fullest extent are however not able to use the modern computer mouse in an efficient and comfortable way. Our goal is to solve this problem by creating a mouse that allows people with any disability that affects their hands to use a computer without any complications. Constraints: ● Cost of materials(How much it will cost to make each mouse) ● Production time(How long it will take to produce each mouse) ● Type of materials(what materials will be used for the mice) ● How many people can use it(What different disabilities are able to use this mouse) ● Durability(How long will the mouse last without breaking) Criteria: ● Cost to the consumer(How much will the mouse cost) ● Performance of mouse(How well will the mouse work for the people with disabilities) ● Programmable buttons(Buttons allow for more options for the consumer with the disability) ● Adjustable size(Allows for more options for the consumer with the disability) ● Works with all Operating systems and computers ● Grip Style(Allows for more options for the consumer with the disability) Cost of material: recyclable plastic /aluminum/ carbon box for packing/ Production time: machine made/computer operated/line work/practical packing/standardize production Type of materials: plastic/aluminum/copper wire/circuit How many people can use it: Parkinson's/ Durability: hard plastic/round edges/less parts Solution list For the cost of material we decided to go with material that are easy acquired for the fact that by being easy acquired mean that are more of it on the market. -Production time we choose to go fully machine operated knowing that it will cost a bit more at the start, but it will pay itself on the long run for the machine production time is much faster than human labor Plastic is cheap and incredibly versatile with properties that make it ideal for many applications Despite UN hand-wringing and corporate pledges, demand for plastics grew a further 3.5% in 2019 and up to 16% in much of Asia. Latest figures suggest 359 m tons were produced in 2018 (https:// ourworldindata.org) As mentioned above, machines have significantly reduced the need for human labor. Machines make work 36% safer. With the advent of machines, an individual using a machine can perform work which would have needed several people to carry (outhttps://www.forbes.com/sites/mohanbirsawhney/2018/03/10/as-robots-threaten-more-jobs-human-skills-will-save-us) For type of material we chose the most common for mouse being hard plastic and molding plastic both can be easily acquired and used in most of the mouse components aluminum, copper wire and circuit are necessary parts for an electronic to function and not as expensive as its for a mouse. Durability material are hard plastic and making the mouse have less separated parts to avoid wear after using for a long time and if dropped won't come a part. This thermoformed plastic is resistant to the elements, keeping outside debris from the product, so you don’t have to worry about the product becoming damaged. In addition to providing protection for your products, hard, rigid plastic also can be extremely durable (https://www.curbellplastics.com/Research-Solutions/Plastic-Properties) How many people can use we choose to focus on Parkinson’s for the reason of having very different types but not so different that you need a completely new system to operate. Parkinson's disease tremor may affect almost any part of the body, but most commonly involves the fingers, followed next most commonly by the hands. Parkinson’s disease (PD) is the second most common degenerative neurological disorder after Alzheimer’s disease. It is estimated that PD affects 1 percent of the population over the age of 60. A percentage of people with PD (85 percent of all cases involves the fingers We are looking for getting a standard material cost, no too high or too low of a price, same thing with the quality. All of this with the goal of delivering a product to different economic class since like low-income and high-income people. Then, we will have a wide margin of potential clients. In addition, we will have a 4 years useful life of our product. Considering that these devices are advancing fast technologically, creating new components, greater power, efficiency and quality. we are in the task to improve our product daily if possible but always under our policies. for that reason alone with picked that solution list together. DESING ANALYSIS Our mouse prototype was made in the 3-D modeling Autodesk app. Like we emphasize in the previous slides, we are working harder to achieve the minimum cost of materials, the production time efficiency, the materials easy to get and to use, the standard durability according to the computer life, and the focus on helping people with Parkinson’s disability to get access to the computer’s world through a new mouse. The innovative design comes with programmable buttons, DPI button and trackball. The design is very ergonomic. The plastic will be 100% recyclable. The 75% of our product is compounded by plastic and the other 25% is divide in aluminum and small stuffs as cables, sensors and batteries. The aluminum is an expensive material, but it will be use in smalls quantity (for electronic purposes). These kinds of materials are quite common to get in the market then we will not have any issue. We keep thinking that the rigid plastic and the perfect assemble of each part will bring the final product of what we want. Excellent quality, affordable price. So far, we have done a good job identifying our constraints and criteria. But we realize that we are missing something like a plus, the different thing to incentive people to buy our product, a special function that other mice for disability people do not have. That is why we decide to include one more gadget for our product which is the vibration for our mouse. Then, the mouse will have vibration lapses of 2 or 5 minutes. 01 02 04 03 The vibration time will be between 2 to 5 minutes, the buyer can