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《面向儿童注意力训练的脑电玩具开发开题报告》由会员上传分享,免费在线阅读,更多相关内容在应用文档-天天文库。
1、本科生毕业设计开题报告学生姓名:张静卓学生学号:3100100755指导教师:柴春雷年级与专业:工业设计1001所在学院:计算机学院一、题目:面向儿童注意力训练的脑电玩具开发二、指导教师对国内外设计调研、设计概念、设计计划及创新点等具体要求:深入了解脑机交互所涉及领域的前沿技术与设计,并认真对比分析其中优秀设计产品,在此基础上为儿童注意力产品设计打好前期基础。产品设计概念要有新意,要结合生产实际,社会需求,能够带来一定的社会效益,需对社会有现实意义,并且具有创新性,能够反映出设计者较好的基础理论、专业知识、艺术修养
2、等。要制定科学的设计计划,严格按照设计计划完成设计,确保毕设的质量,并且要留有足够时间进行调整,确保具有最佳展示效果。创新点要以脑机交互技术为基础,以儿童用户为中心,充分考虑脑机交互产品的实用性,有助于真正提高儿童用户的注意力,从而确保具有较强的社会意义。指导教师(签名)年月日毕业设计开题报告考核答辩小组对开题报告成绩评定:成绩比例开题报告文献综述外文翻译分值1476开题报告答辩小组负责人(签名)年月日浙江大学本科毕业论文(设计)开题报告目录本科毕业设计开题报告1.课题背景·····················
3、·········································11.1脑电的基本原理和分类··············································71.2.脑电技术发展的现状···············································81.3.脑电技术发展及趋势·············································92.设计目的································
4、·····························103.设计调研·····························································103.1交互产品分类·····················································103.2现有的基于脑电控制的创新产品·····································113.3脑电控制的益智类产品培养小孩子注意力···················
5、·········13浙江大学本科毕业论文(设计)开题报告4.设计方法·····························································144.1产品设计流程·····················································154.2可用性分析·······················································165.预期效果···························
6、··································166.技术领域支持·························································176.1脑信号获取·······················································176.2特征产生·························································186.3变换算法···················
7、······································186.4设备控制·························································187.进度计划表···························································19浙江大学本科毕业论文(设计)开题报告8.设计比较·····························································2
8、0浙江大学本科毕业论文(设计)开题报告本科毕业设计开题报告课题背景:产品创新设计中的脑电控制技术内容及背景高新技术是第一生产力,是推动社会全面进步的伟大力量。而脑电技术作为高新技术的一种,应该被人们重视和利用于产品的创新设计。一直以来,人们希望能够直接用大脑信号与外界进行信息沟通,实现与外界的交互。科学研究发现人的大脑皮层中的神经元可以产生自发的生物电活动,
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