唇:链接参与式感知优化社会资源配置

Mina Sakamura, Takuro Yonezawa, J. Nakazawa, K. Takashio, H. Tokuda
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引用次数: 0

摘要

本文提出了链接式参与式感知的概念,将复杂的感知任务划分为多个小任务,并相互连接,以优化社会资源配置。近年来,参与式感知得到了广泛的应用,但其感知任务仍然非常简单,易于参与者处理(例如,请输入排队的人数)。等等)。为了适应需要特定技能的高水平任务,如工程、医学专业或活动组织者等权威,我们需要优化社会资源配置,因为这些专业人员的数量有限。为了高效地完成复杂的传感任务,lip可以将复杂的传感任务划分为多个小任务,并通过分配合适的传感器来相互连接。lip可以将物理传感器和人视为混合多级传感器,任务提供者可以为每个划分的感知任务的目标安排社会资源分配。本文介绍了该系统的设计与开发过程。我们还在实验室中实现了混合传感系统的第一个原型,并通过用户反馈讨论了进一步系统的模型。
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LiPS: linked participatory sensing for optimizing social resource allocation
This paper proposes a concept of linked participatory sensing, called LiPS, that divide a complex sensing task into small tasks and link each other to optimize social resource allocation. Recently participatory sensing have been spreading, but its sensing tasks are still very simple and easy for participants to deal with (e.g. Please input the number of people standing in a queue. etc.). To adapt to high-level tasks which require specific skills such as those in engineering, the medical profession or authority such as the organizer of the event, we need to optimize social resource allocation because the number of such professionals are limited. To achieve the complex sensing tasks efficiently, LiPS enables to divide a complex sensing task into small tasks and link each other by assigning proper sensors. LiPS can treat physical sensors and human as hybrid multi-level sensors, and task provider can arrange social resource allocation for the goal of each divided sensing task. In this paper, we describe the design and development of the LiPS system. We also implemented an in-lab experiment as the first prototype of hybrid sensing system and discussed the model of further system through users' feedback.
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