Digital Signal Processing and Artificial Intelligence for Automatic Learning

DLINE Journals portal

Home

New Journals

Browse Journals

Journal Prices

For Authors

Print ISSN:
Online ISSN: 2583-5009

About DSPAI
	DLINE Portal Home Home Aims & Scope Editorial Board Current Issue Next Issue Previous Issue Sample Issue Upcoming Conferences Self-archiving policy Alert Services Be a Reviewer Publisher Paper Submission Subscription Contact us

How To Order
	Order Online Price Information Request for Complimentary Print Copy

For Authors
	Guidelines for Contributors Online Submission Statement of Ethics and Responsibilities Review Policies Transfer of Copyright Archiving Policy Call for Papers Author Rights

RELATED JOURNALS

Journal of Digital Information Management (JDIM)

International Journal of Computational Linguistics Research (IJCL)

International Journal of Web Application (IJWA)

Digital Signal Processing and Artificial Intelligence for Automatic Learning

Spatial Navigation Path Analysis of Indoor Geomagnetic Digital Map and Vitby Algorithm

Wen Zhiyong
School of Fine Arts, Sichuan University of Arts and Sciences Dazhou City, Sichuan, 635000 China

Abstract: With the rapid development of technologies such as the Internet of Things and artificial intelligence, indoor spatial navigation has gradually become a research hotspot. In the field of indoor navigation, geomagnetic navigation, as an emerging technology with high positioning accuracy and stability, is widely used in fields such as smart homes and robots. In order to better leverage the advantages of geomagnetic navigation, this article studies the application of indoor geomagnetic digital maps and Vitby algorithm in spatial navigation path analysis. This article studies the application of indoor geomagnetic digital maps and Vitby algorithm in spatial navigation path analysis. By constructing an indoor geomagnetic digital map and utilizing the Vitby algorithm for path planning, precise navigation of indoor spaces has been achieved. This method can provide important technical support for indoor navigation, smart home, robotics and other fields.

Keywords: Viterbi Algorithm, Indoor Environment, Humanized Design, Humanistic Care Spatial Navigation Path Analysis of Indoor Geomagnetic Digital Map and Vitby Algorithm

DOI:https://doi.org/10.6025/dspaial/2023/2/3/61-69

Full_Text PDF 956 KB Download: 39 times

References:

[1] Han, S. H., Jung, E. S., Jung, M. Y., et al. (2014). A psychophysical evaluation of interior design alternatives for a high-speed train. Computers & Industrial Engineering, vol. 27, no. 1–4, 2014, p. 397-400.

[2] Fernandes, S. C. F., Esteves, J. L., Simoes, R., et al. (2017). Characteristics and human factors of older drivers: improvement opportunities in automotive interior design. International Journal of Vehicle Design, vol. 74, no. 3, p. 167.

[3] Poldma, T. (2011). The interior spatial environment: dynamic 0g environments and human places. Personal and Ubiquitous Computing, vol. 15, no. 5, 2011, p. 539-550.

[4] Bellomi, M., Rampinelli, C., Veronesi, G., et al. (2010). The Applications of Daylighting Illumination Technology into Interior Design of Office Building. European Radiology, vol. 20, no. 2, p. 286-292.

[5] Siebein, G. W., Paek, H., Lilkendey, R. M., et al. (2010). Architectural acoustic design concepts for drama theaters. Journal of the Acoustical Society of America, vol. 128, no. 128, p. 2275.

[6] Gluesing-Luerssen, H., Tsang, F. L. (2017). A Matrix Ring Description for Cyclic Convolutional Codes. Advances in Mathematics of Communications, vol. 2, no. 1, p. 55-81.

[7] Tseng, Yi-Hong, Lee, Hsi-Jian. (2012). Recognition-based handwritten Chinese character segmentation using a probabilistic Viterbi algorithm. Pattern Recognition Letters, vol. 20, no. 8, 2012, p 791-806.

[8] Kim, J., Lee, J. (2011). Two-dimensional soft output Viterbi algorithm with noise filter for patterned media storage. Journal of Applied Physics, vol. 109, no. 7, 2011, p 4230-6254.

[9] Soltanpur, C., Cruz, J. R. (2016). Near Optimal Viterbi Algorithm for Storage Channels With Linear Regressive Noise. IEEE Journal on Selected Areas in Communications, vol. 34, no. 9, p 2518-2524.

[10] Gao, B., Xiao, Z., Chen, Z., et al. , (2013). Multigigabit balanced add-select-register-compare Viterbi decoders architecture in 60 GHz WPAN. IEEE, p 531-535.

DLINE Journals portal