Development of User Feedback-Based Optimized Encoding System for 3D-Printed Tactile Maps

被引:1
|
作者
Kaplan, Howard [1 ]
Pyayt, Anna [2 ]
机构
[1] Univ S Florida, Dept Elect Engn, Tampa, FL 33620 USA
[2] Univ S Florida, Dept Chem Biol & Mat Engn, Tampa, FL 33620 USA
来源
DISABILITIES | 2022年 / 2卷 / 03期
关键词
assistive technology; tactile; mobility; blindness; mahhps; 3D-printing; MOBILITY AIDS; INDIVIDUALS; BLIND; ORIENTATION; PRINCIPLES; ADULTS; DESIGN;
D O I
10.3390/disabilities2030027
中图分类号
R49 [康复医学];
学科分类号
100215 ;
摘要
The wide availability of 3D-printers makes possible the simple creation of tactile maps for individuals with blindness. However, to be useful, these maps have to be designed using feedback from the future users. In this study, we worked with fifteen individuals with blindness to develop an optimized encoding system for 3D-printed tactile maps for building interiors. Based on their requests, we focused on the development of maps with information about safety routes and emergency exits. Additionally, users identified a set of important physical objects to be encoded on the map. After that, multiple encodings were evaluated individually and when integrated in maps. This resulted in a set of optimal encodings that was most positively perceived by all participants.
引用
收藏
页码:379 / 397
页数:19
相关论文
共 50 条
  • [31] Visuospatial abilities and 3D-printed based learning
    Schlund, Matthias
    Al-Badri, Nour
    Nicot, Romain
    SURGICAL AND RADIOLOGIC ANATOMY, 2024, 46 (06) : 927 - 931
  • [32] Accessible Maps for the Blind: Comparing 3D Printed Models with Tactile Graphics
    Holloway, Leona
    Marriott, Kim
    Butler, Matthew
    PROCEEDINGS OF THE 2018 CHI CONFERENCE ON HUMAN FACTORS IN COMPUTING SYSTEMS (CHI 2018), 2018,
  • [33] CapMaps Capacitive Sensing 3D Printed Audio-Tactile Maps
    Goetzelmann, Timo
    COMPUTERS HELPING PEOPLE WITH SPECIAL NEEDS, PT II (ICCHP 2016), 2016, 9759 : 146 - 152
  • [34] Development of complex 3D-printed microchannels within hydrogels
    Song, Kwanghoon
    Highley, Christopher
    Burdick, Jason
    ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2016, 252
  • [35] Development of Variable Residential Buildings with 3D-Printed Walls
    Garcia-Alvarado, Rodrigo
    Moroni-Orellana, Ginnia
    Banda, Pablo
    BUILDINGS, 2022, 12 (11)
  • [36] Development of 3D-Printed Glasses for Color Vision Deficiency
    Alam, Fahad
    Salih, Ahmed E.
    Elsherif, Mohamed
    Butt, Haider
    ADVANCED ENGINEERING MATERIALS, 2022, 24 (10)
  • [37] 3D-Printed, Adjustable Armband for Electromyography-Based Finger Movement Classification With Haptic Feedback
    Wang, Michelle
    Bulger, Miasya
    Dai, Yue
    Noel, Kira
    Axon, Christopher
    Brandenberger, Anna
    Fay, Stephen
    Gao, Zenghao
    Gilmer, Saskia
    Hamdan, Jad
    Humane, Prateek
    Jiang, Jennifer
    Killian, Cole
    Langleben, Ian
    Li, Bonnie
    Zamora, Alejandra Martinez
    Mavromatis, Stylianos
    Njini, Sasha
    Riachi, Roland
    Rong, Carrie
    Zhen, Andy
    Xiong, Marley
    2020 IEEE INTERNATIONAL CONFERENCE ON SYSTEMS, MAN, AND CYBERNETICS (SMC), 2020, : 3460 - 3465
  • [38] TACTILE MAPS BASED ON 3D PRINTING TECHNOLOGY
    Vozenilek, Vit
    Vondrakova, Alena
    SOCIETY, INTEGRATION, EDUCATION, VOL III, 2014, 2014, : 193 - +
  • [39] MetaReality: enhancing tactile experiences using actuated 3D-printed metamaterials in Virtual Reality
    Feick, Martin
    Degraen, Donald
    Hupperich, Fabian
    Krueger, Antonio
    FRONTIERS IN VIRTUAL REALITY, 2023, 4
  • [40] Model-Free Precise in-Hand Manipulation with a 3D-Printed Tactile Gripper
    Ward-Cherrier, Benjamin
    Rojas, Nicolas
    Lepora, Nathan F.
    IEEE ROBOTICS AND AUTOMATION LETTERS, 2017, 2 (04): : 2056 - 2063
12345