著者
Inami Masahiko Iwata Hiroyasu Kukita Minao Kurita Yuichi Minamizawa Kouta Mochimaru Masaaki Narumi Takuji Rekimoto Junichi Suzuki Kenji
出版者
富士技術出版株式会社
雑誌
Journal of Robotics and Mechatronics (ISSN:09153942)
巻号頁・発行日
vol.33, no.5, pp.985-986, 2021

<p>Information technologies, such as IoT, artificial intelligence (AI), and virtual reality (VR), have seen so much development that there is now a wide variety of digital equipment incorporated into the infrastructure of daily life. From the agrarian society (Society 1.0) through the information society (Society 4.0), humankind has created farmlands and cities by structuring natural environments physically and has built information environments by structuring them informationally. However, despite the rapid development of information environments, it may be fair to say that the perspectives of the human body have not changed at all since the industrial revolution.</p><p>In the context of these recent technological developments, greater attention is being paid to human augmentation studies. These studies aim for a new embodiment of "human-computer integration," one which can physically and informationally compensate or augment our innate sensory functions, motor functions, and intellectual processing functions by using digital equipment and information systems at will, as if they were our hands and feet. It has also been proposed that the technical systems that enable us to freely do what we want by utilizing human augmentations be called "JIZAI" (freedomization) as opposed to "automation."</p><p>The term "JIZAI body" used in these studies represents the new body image of humans who will utilize engineering and informatics technologies to act at will in the upcoming "super smart society" or "Society 5.0." In these studies, human augmentation technologies are an important component of JIZAI, but JIZAI is not the same as human augmentation. JIZAI is different in scope from human augmentation, as it aims to enable humans to move freely among the five new human body images: "strengthened sense" (augmented perception), "strengthened physical body" (body augmentation), "separately-designed mind and body" (out of body transform), "shadow cloning," and "assembling." In the society of the future where JIZAI bodies widely prevail, we will use technologies that enable us to do what we have failed at or given up due to limitations of our physical bodies. We believe that a future society, one in which aging does not reduce our capabilities but instead increased options give us hope, can be realized. This special issue, consisting of two review papers and twelve research papers, deals with diverse and wide-ranging areas, including human augmentation, robotics, virtual reality, and others. We would like to express our sincere appreciation to all the authors and reviewers of the papers contributed to this special issue and to the editorial committee of the Journal of Robotics and Mechatronics for their gracious cooperation.</p>
著者
REKIMOTO JUNICHI TARUMI HIROYUKI SUGAI MASARU YAMAZAKI GO IGARI KANEMITSU MORI TAKESHI SUGIYAMA TAKAHIRO UCHIYAMA ATSUKO AKIGUCHI CHUZO
出版者
一般社団法人情報処理学会
雑誌
Journal of information processing (ISSN:03876101)
巻号頁・発行日
vol.14, no.4, pp.455-462, 1992-03-15

As window systems become popular, there is a growing need for a Graphical User Interface (GUI) that allows users to manipulate objects on the screen directly. However, development of GUI is not an easy task. We have developed a graphical user interface constructing environment which supports editing facilities of six media types (including text, image, diagram, graph structure, table, and hierarchical structure). This system' Called Canae, is intended to be a general platform for several interactive and graphical applications. Canae provides various customization methods and an extension language for application developers to use editor parts as components of user interface. For modifying and extending these editors to accommodate to an application's needs, we use the MVC paradigm and object oriented approach in designing Canae. Application programmers can modify editor's keyboard handling and mouse handling by creating application specific Event Maps and Key Maps. Canae also provides a mechanism that enables applications to associate application's data and data in Canae. Canae is widely used for building several product-level applications. By evaluating three CASE appllcations developed with Canae, we have found that Canae reduces the amount of newly developed program codes by about 50% or more.