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成果報告書詳細
管理番号20180000000161
タイトル*平成29年度中間年報 IoT推進のための横断技術開発プロジェクト インテリジェントIoTプラットフォームの研究開発
公開日2018/6/2
報告書年度2017 - 2017
委託先名国立大学法人東京工業大学 富士ゼロックス株式会社 株式会社竹中工務店
プロジェクト番号P16007
部署名IoT推進部
和文要約
英文要約Title: Project to Develop Cross-Sectional Technologies for IoT Promotion/ The R&D Project for Intelligent IoT platform/ (FY2016-FY2018) FY2017 Annual Report

A:The R&D project of application for human and things information on IoT
R&D was made for new services to improve intellectual productivity, and we'll improve operational efficiency by combining human information with control systems with IoT.

(1)Application for communication assist(Tokyo Institute of Technology)
Based on the specifications decided before, we made R&D on 3 items. These were, construction of "field" visualization system, application and evaluation for collective communication, specification design for communication support.
(2)Application of assisting collaboration in an office(Fuji Xerox Co., Ltd.)
We focused on developing self-ball which is a key device of collaboration support tools. Through the experiments concerning position detection, interest degree coincidence detection, and notification function, we developed a self-ball prototype Step 1.
(3)Application for construction site(Takenaka Corporation)
In addition to controlling human workflow, we have newly added task management of on-site supervision. We selected the applicable construction site and prepared for system introduction for next year's trial.

B:The R&D project of processing for human and things information on IoT
We develop software group to construct control system easily, package of flow design, and process reconfiguration method in distributed control system.

(1)The RWOS(Real World Operation System) for the distributed control system(Tokyo Institute of Technology)
We advanced beta version RWOS released last year, and plan to release alpha version in FY2018.
(2)Developing data flow solution(Tokyo Institute of Technology)
We combined project type workflow, task management, and processing flow synchronization to complete the data flow control method. Using this, we designed a prototype for the construction site.
(3)Business investigation for RWOS diffusion(Tokyo Institute of Technology)
RWOS consortium was founded by companies and organizations, and the first symposium was held in March, 2018.

C:The R&D project of physical and sensitive interface for human and things information on IoT
We implemented a wireless RF interface circuit with ultra-low power consumption and evaluated a low cost EDA design environment.

(1)Low power sensing technology(Tokyo Institute of Technology)
Based on the design result of the last year's RF backscattering circuit, CMOS trial fabrication was carried out by 0.7μm technology. We succeeded in realizing low power operation of 3.6μW@0.7V that meets the target power consumption (1/1000 or less of the conventional technology of 10 mW operation).
(2)Hardware open platform(Tokyo Institute of Technology) 
The design environment of the legacy process(0.7 to 0.18μm CMOS) was applied to the above circuit, and completed successfully.
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