+高级检索
首页 > 优先出版
PDF HTML阅读 XML下载 导出引用 引用提醒
机器嗅觉中的气味复现研究进展
作者:
作者单位:

广东工业大学 信息工程学院

中图分类号:

U448.213

基金项目:

国家自然科学基金(200150036)。


Research Progress of Odor Reproduction inMachine Olfaction
Author:
Affiliation:

School of Information Engineering,Guangdong University of Technology

Fund Project:

Supported by Science and Technology Projects of Guizhou Transportation Department

  • 摘要
    • | |
  • 访问统计
    • |
  • 参考文献 [47]
    • |
  • 相似文献
    • |
  • 引证文献
    • | |
  • 文章评论
    摘要:

    当今社会已经进入人工智能的高速发展阶段,机器嗅觉是21世纪发展起来的一项新兴技术。气味复现是机器嗅觉系统的重要组成部分,日益受到科学界和产业界的关注。文中重点综述了气味复现理论及其气味发生方式,同时将已有的气味复现技术进行分类、对比以及分析。总结了当前气味复现面临的挑战,并对其发展前景进行了展望。

    Abstract:

    Today"s society has entered the stage of rapid development of artificial intelligence, and machine olfaction is an emerging technology developed in the 21st century. Odor reproduction is an important part of machine olfactory system, which has attracted increasing attention from the scientific and industrial circles. This paper focuses on the theory of odor reproduction and the way of odor generation. At the same time, it classifies, compares and analyzes the existing odor reproduction technology. The current challenges of odor reproduction are summarized and its development prospects are presented.

    参考文献
    [1] Guthrie B. Machine Olfaction[M]//Springer Handbook of Odor. Springer, Cham, 2017: 55-56
    [2] Moncrieff R W. An instrument for measuring and classifying odors[J]. Journal of applied physiology, 1961, 16(4): 742-749.
    [3] Marco S, Gutierrez-Galvez A. Signal and data processing for machine olfaction and chemical sensing: A review[J]. IEEE Sensors Journal, 2012, 12(11): 3189-3214.
    [4] Li D, Lei T, Zhang S, et al. A novel headspace integrated E-nose and its application in discrimination of Chinese medical herbs[J]. Sensors and Actuators B: Chemical, 2015, 221: 556-563.
    [5] Loutfi A, Coradeschi S, Mani G K, et al. Electronic noses for food quality: A review[J]. Journal of Food Engineering, 2015, 144: 103-111.
    [6] Cipriano D, Capelli L. Evolution of electronic noses from research objects to engineered environmental odour monitoring systems: A review of standardization approaches[J]. Biosensors, 2019, 9(2): 75.
    [7] Wei Y T, Meng Q H, Jing Y Q, et al. A portable odor-tracing instrument[J]. IEEE Transactions on Instrumentation and Measurement, 2015, 65(3): 631-642.
    [8] Wen T, Luo D, He J, et al. The odor characterizations and reproductions in machine Olfactions: A review[J]. Sensors, 2018, 18(7): 2329.
    [9] Kurian S M, Naressi R G, Manoel D, et al. Odor coding in the mammalian olfactory epithelium[J]. Cell and Tissue Research, 2021: 1-12.
    [10] 刘峰,叶学松,沈小妹,夏灵.嗅球神经细胞网络建模及其信息编码的研究[J].电子学报,2009,37(08):1718-1722.
    [11] 林翔云.调香术(第三版).化学工业出版社,2013-10-01.
    [12] Nakamoto T, Minh H P D. Improvement of olfactory display using solenoid valves[C]//2007 IEEE Virtual Reality Conference. IEEE, 2007: 179-186.
    [13] Nakamoto T, Yamanaka T. Odor reproduction with movie and its application to teleolfaction[M]//Intelligent Systems for Machine Olfaction: Tools and Methodologies. IGI global, 2011: 126-152.
    [14] Nakamoto T, Nimsuk N, Wyszynski B, et al. Reproduction of scent and video at remote site using odor sensing system and olfactory display together with camera[C]//SENSORS, 2008 IEEE. IEEE, 2008: 799-802.
    [15] Kim D, Han D, Byun H, et al. A proposal representation, digital coding and clustering of odor information[C]//2006 International Conference on Computational Intelligence and Security. IEEE, 2006, 1: 872-877.
    [16] Harel D. Niépce–Bell or Turing: how to test odour reproduction[J]. Journal of The Royal Society Interface, 2016, 13(125): 20160587.
    [17] Li H, Sun Y, Luo D. A method of olfactory display: Odor characterization and reproduction[C]//2017 ISOCS/IEEE International Symposium on Olfaction and Electronic Nose (ISOEN). IEEE, 2017: 1-3.
    [18] 孙运龙. 一种物质气味嗅频提取方法[P]. 中国专利: 104102818, 2017-02-15.
    [19] 吴新丽,杨文珍,余岭,祝盼飞,竺志超.虚拟嗅觉气味生成装置的研究进展[J].系统仿真学报,2014,26(09):1882-1888.
    [20] Yanagida Y, Kawato S, Noma H, et al. Projection based olfactory display with nose tracking[C]//IEEE Virtual Reality 2004. IEEE, 2004: 43-50.
    [21] Nakamoto T, Murakami K. Selection method of odor components for olfactory display using mass spectrum database[C]//2009 IEEE Virtual Reality Conference. IEEE, 2009: 159-162.
    [22] Matsukura H, Nihei T, Ishida H. Multi-sensorial field display: Presenting spatial distribution of airflow and odor[C]//2011 IEEE Virtual Reality Conference. IEEE, 2011: 119-122.
    [23] Matsukura H, Yoneda T, Ishida H. Smelling screen: development and evaluation of an olfactory display system for presenting a virtual odor source[J]. IEEE transactions on visualization and computer graphics, 2013, 19(4): 606-615.
    [24] Peiris R, Starner T, Beigl M, et al. ISWC 2018: Towards Smarter Wearable Technologies That Blend With Our Bodies[J]. IEEE Pervasive Computing, 2019, 18(2): 96-99.
    [25] Kadowaki A, Noguchi D, Sugimoto S, et al. Development of a high-performance olfactory display and measurement of olfactory characteristics for pulse ejections[C]//2010 10th IEEE/IPSJ International Symposium on Applications and the Internet. IEEE, 2010: 1-6.
    [26] Ariyakul Y, Nakamoto T. Improvement of odor blender using electroosmotic pumps and SAW atomizer for low-volatile scents[J]. IEEE Sensors Journal, 2013, 13(12): 4918-4923.
    [27] Wen T, Luo D, Ji Y, et al. Development of a Piezoelectric-Based Odor Reproduction System[J]. Electronics, 2019, 8(8): 870.
    [28] Pornpanomchai C, Threekhunprapa A, Pongrasamiroj K, et al. SubSmell: Multimedia with a simple olfactory display[C]//Pacific-Rim Symposium on Image and Video Technology. Springer, Berlin, Heidelberg, 2009: 462-472.
    [29] Hoshino S, Ishibashi Y, Fukushima N, et al. QoE assessment in olfactory and haptic media transmission: Influence of inter-stream synchronization error[C]//2011 IEEE International Workshop Technical Committee on Communications Quality and Reliability (CQR). IEEE, 2011: 1-6.
    [30] Howell M J, Herrera N S, Moore A G, et al. A reproducible olfactory display for exploring olfaction in immersive media experiences[J]. Multimedia Tools and Applications, 2016, 75(20): 12311-12330.
    [31] Abid S H, Li Z, Li R, et al. Anaglyph video smell presentation using micro-porous piezoelectric film olfactory display[J]. Displays, 2015, 39: 55-67.
    [32] Covington J A, Agbroko S O, Tiele A. Development of a Portable, Multichannel Olfactory Display Transducer[J]. IEEE Sensors Journal, 2018, 18(12): 4969-4974.
    [33] Ayres A J. Sensory integration and praxis tests (SIPT)[M]. Western Psychological Services (WPS), 1996.
    [34] Nagata Y, Takeuchi N. Measurement of odor threshold by triangle odor bag method[J]. Odor measurement review, 2003, 118: 118-127.
    [35] Kovacs-Vajna Z M. A fingerprint verification system based on triangular matching and dynamic time warping[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2000, 22(11): 1266-1276.
    [36] Marra F, Roli F, Cozzolino D, et al. Attacking the triangle test in sensor-based camera identification[C]//2014 IEEE International Conference on Image Processing (ICIP). IEEE, 2014: 5307-5311.
    [37] Harel D. Niépce–Bell or Turing: how to test odour reproduction[J]. Journal of The Royal Society Interface, 2016, 13(125): 20160587.
    [38] Jing Y Q, Meng Q H, Qi P F, et al. A bioinspired neural network for data processing in an electronic nose[J]. IEEE Transactions on Instrumentation and Measurement, 2016, 65(10): 2369-2380.
    [39] Zhang L, Liu Y, Deng P. Odor recognition in multiple E-nose systems with cross-domain discriminative subspace learning[J]. IEEE Transactions on Instrumentation and Measurement, 2017, 66(7): 1679-1692.
    [40] Li L, Li H Y, Hu Z, et al. Construction and Simple Application of a Primary Electronic Nose System[C]//2019 IEEE International Symposium on Olfaction and Electronic Nose (ISOEN). IEEE, 2019: 1-4.
    [41] Okabe S, Ueta G. Partial discharge criterion in AC test of oil-immersed transformer and gas-filled transformer in terms of harmful partial discharge level and signal transmission rate[J]. IEEE Transactions on Dielectrics and Electrical Insulation, 2012, 19(4): 1431-1439.
    [42] Wu J, Yan Y, Hu Y, et al. Flame boundary measurement using an electrostatic sensor array[J]. IEEE Transactions on Instrumentation and Measurement, 2020, 70: 1-12.
    [43] Everson T, Joordens M, Forbes H, et al. Virtual Reality and Haptic Cardiopulmonary Resuscitation Training Approaches: A Review[J]. IEEE Systems Journal, 2021.
    [44] 丁颖,刘延伟,刘金霞,刘科栋,王利明,徐震.虚拟现实全景图像显著性检测研究进展综述[J].电子学报,2019,47(07):1575-1583.
    [45] 曹凡.国内外VR技术研发现状综述[J].中国科技信息,2019(05):36-37.
    [46] Anthes C, García-Hernández R J, Wiedemann M, et al. State of the art of virtual reality technology[C]//2016 IEEE Aerospace Conference. IEEE, 2016: 1-19.
    [47] Interrante V, H?llerer T, Lécuyer A. Virtual and augmented reality[J]. IEEE Computer Graphics and Applications, 2018, 38(2): 28-30.
    相似文献
    引证文献
引用本文

复制
分享
文章指标
  • 点击次数:
  • 下载次数:
  • HTML阅读次数:
  • 引用次数:
历史
  • 收稿日期:2021-04-26
  • 最后修改日期:2021-06-07
  • 录用日期:2021-07-05
文章二维码
您是第 位访问者
主管单位:中华人民共和国教育部
主办单位:重庆大学
地址:重庆市沙坪坝正街174号
电话:
重庆大学学报 ® 2025 版权所有