Top

Journal of NeuroEngineering and Rehabilitation

Published in:

Open Access 01-12-2007 | Methodology

A flexible routing scheme for patients with topographical disorientation

Authors: Jorge Torres-Solis, Tom Chau

Published in: Journal of NeuroEngineering and Rehabilitation | Issue 1/2007

Abstract

Background

Individuals with topographical disorientation have difficulty navigating through indoor environments. Recent literature has suggested that ambient intelligence technologies may provide patients with navigational assistance through auditory or graphical instructions delivered via embedded devices.

Method

We describe an automatic routing engine for such an ambient intelligence system. The method routes patients with topographical disorientation through indoor environments by repeatedly computing the route of minimal cost from the current location of the patient to a specified destination. The cost of a given path not only reflects the physical distance between end points, but also incorporates individual patient abilities, the presence of mobility-impeding physical barriers within a building and the dynamic nature of the indoor environment. We demonstrate the method by routing simulated patients with either topographical disorientation or physical disabilities. Additionally, we exemplify the ability to route a patient from source to destination while taking into account changes to the building interior.

Results

When compared to a random walk, the proposed routing scheme offers potential cost-savings even when the patient follows only a subset of instructions.

Conclusion

The routing method presented reduces the navigational effort for patients with topographical disorientation in indoor environments, accounting for physical abilities of the patient, environmental barriers and dynamic building changes. The routing algorithm and database proposed could be integrated into wearable and mobile platforms within the context of an ambient intelligence solution.

Available only for authorised users

Barrash J: A historical review of topographical disorientation and its neuroanatomical correlates. J Clin Exp Neuropscyhol 1998,20(6):806-827.

Takahashi N, Kawamura M: Pure topographical disorientation – the anatomical basis of landmark agnosia. Cortex 2002,38(5):717-725.CrossRefPubMed

Moffat S, Elkins W, Resnick S: Age differences in the neural systems supporting human allocentric spatial navigation. Neurobiology of Aging 2006,27(7):965-972. 10.1016/j.neurobiolaging.2005.05.011CrossRefPubMed

van Asselen M, Kessels RP, Kappelle LJ, Neggers SF, Frijns CJ, Postma A: Neural correlates of human wayfinding in stroke patients. Brain Res 2006,1067(1):229-238. 10.1016/j.brainres.2005.10.048CrossRefPubMed

Aguirre GK, D'Esposito M: Topographical disorientation: a synthesis and taxonomy. Brain 1999, 122: 1613-1628. 10.1093/brain/122.9.1613CrossRefPubMed

LoPresti E, Mihailidis A, Kirsch N: Assistive technology for cognitive rehabilitation: State of the art. Neuropsychological Rehabilitation 2004,14(1/2):5-39. 10.1080/09602010343000101CrossRef

Rose F, Johnson D, Attree E: Rehabilitation of the head-injured child: basic research and new technology. Pediatric rehabilitation 1997, 1: 3-5.PubMed

Dikmen S, Machamer J, Powell J, Temkin N: Outcome 3 to 5 years after moderate to severe traumatic brain injury. Archives of Physical Medicine and Rehabilitation 2003,84(10):1449-1457. 10.1016/S0003-9993(03)00287-9CrossRefPubMed

Vaughan N, Agner D, Clinchot D: Perseveration and wandering as a predictor variable after brain injury. Brain Injury 1997,11(11):815-819. 10.1080/026990597123025CrossRefPubMed

10.

Skelton R, Ross S, Nerad L, Livingstone S: Human spatial navigation deficits after traumatic brain injury shown in the arena maze, a virtual Morris water maze. Brain Injury 2006,20(2):189-203. 10.1080/02699050500456410CrossRefPubMed

11.

Davis SJC: Rehabilitation of Topographical Disorientation: An Experimental Single Case Study. Neuropsychological Rehabilitation 1999, 9: 1-30. 10.1080/713755586CrossRef

12.

Antonakos CL: Compensatory wayfinding behavior in topographic disorientation from brain injury. Journal of Environmental Psychology 2004,24(4):495-502.CrossRef

13.

Morganti F, Riva G: Ambient Intelligence for Rehabilitation. In Ambient Intelligence. Edited by: Riva G, Vatalaro F, Davide F, Alcaniz M. IOS Press; 2005:283-295.

14.

Riva G: Ambient Intelligence in Health Care. Cyberpsychology & Behavior 2003,6(3):295-300. 10.1089/109493103322011597CrossRef

15.

Emiliani P, Stephanidis C: Universal access to ambient intelligence environments: opportunities and challenges for people with disabilities. IBM Systems Journal 2005,44(3):605-619.CrossRef

16.

Chau T, Schwellnus H, Tam C, Lamont A, Eaton C: Augmented environments for paediatric rehabilitation. Technology & Disability 2006,18(3):1-5.

17.

Blache F, Chraiet N, an dF Evennou OD, Flury T, Privat G, Viboud J: Position-based interaction for indoor ambient intelligence environments. In Ambient Intelligence, Volume 2875 of Lectures Notes in Computer Science. Springer Verlag; 2003:192-207.

18.

Hedrick CL: RFC 1058: Routing Information Protocol. RFC 1058 (Standard) Internet Engineering Task Force; 1988. [http://www.ietf.org/rfc/rfc1058.txt]

19.

Malkin G: RFC 2453: RIP Version 2. RFC 2453 (Standard) Internet Engineering Task Force; 1998. [See also STD0056. Obsoletes RFC1388, RFC1723] [http://www.ietf.org/rfc/rfc2453.txt]

20.

Moy J: RFC 1131 – OSPF specification. RFC 1131 (Proposed Standard) Internet Engineering Task Force; 1989. [http://www.ietf.org/rfc/rfc1131.txt]

21.

Moy J: RFC 2328 – OSPF Version 2. RFC 2328 (Standard) Internet Engineering Task Force; 1998. [http://www.ietf.org/rfc/rfc2328.txt]

22.

Rekhter Y, Li T: RFC 1771: A Border Gateway Protocol 4 (BGP-4). RFC 1771 (Draft Standard) Internet Engineering Task Force; 1995. [Obsoletes RFC1654] [http://www.ietf.org/rfc/rfc1771.txt]

23.

Claypool M, Kannan G: Selective Flooding for Improved Quality-of-Service Routing. Proceedings of SPIE, Quality of Service over Next-Generation Data Network 2001, 4524: 33-44. [http://citeseer.ist.psu.edu/claypool01selective.html]CrossRef

24.

Talukder GSA, Pathan AMK: QoSIP: A QoS Aware IP Routing Ptotocol for Multimedia Data. 8th International Conference of Advanced Communication Technology (ICACT 2006) 2006.

25.

Palisano R, Rosenbaum P, Walter S, Russell D, Wood E, Galuppi B: Development and reliability of a system to classify gross motor function in children with cerebral palsy. Dev Med Child Neurol 1997,39(4):214-223.CrossRefPubMed

26.

Chou L, Kaufman K, Walker-Rabatin A, Brey R, Basford J: Dynamic instability during obstacle crossing following traumatic brain injury. Gait & Posture 2004,20(3):245-254. 10.1016/j.gaitpost.2003.09.007CrossRef

27.

Reitmayr G, Schmalstieg D: Location Based Applications for Mobile Augmented Reality. 4th Australasian User Interface Conference 2003.

28.

Belkhous S, Azzouz A, Saad M, Nerguizian C, Nerguizian V: A Novel Approach for Mobile Robot Navigation with Dynamic Obstacles Avoidance. Journal of Intelligent and Robotic Systems 2005, 44: 187-201. 10.1007/s10846-005-9010-8CrossRef

29.

Lee J: A spatial access oriented implementation of a topological data model for 3D urban entities. GeoInformatica 2004,8(3):235-262. 10.1023/B:GEIN.0000034820.93914.d0CrossRef

30.

Dijkstra EW: A note on two problems in connexion with graphs. Numerische Mathematik 1959, 1: 269-271. 10.1007/BF01386390CrossRef

31.

Schneider MO, Garcia Rosa JL: Neural Labyrinth Robot – Finding the Best Way in a Connectionist Fashion. Anais do XXIII Congresso da Sociedade Brasileira de Computacao (SBC 2003) 2003, 1751-1760.

Title: A flexible routing scheme for patients with topographical disorientation
Authors: Jorge Torres-Solis
Tom Chau
Publication date: 01-12-2007
Publisher: BioMed Central
Published in: Journal of NeuroEngineering and Rehabilitation / Issue 1/2007
Electronic ISSN: 1743-0003
DOI: https://doi.org/10.1186/1743-0003-4-44

Keynote webinar | Spotlight on medication adherence

Springer Medicine

A flexible routing scheme for patients with topographical disorientation

Abstract

Background

Method

Results

Conclusion

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Background

Method

Results

Conclusion

Please log in to get access to this content

Other articles of this Issue 1/2007

Potential of a suite of robot/computer-assisted motivating systems for personalized, home-based, stroke rehabilitation

Review on solving the forward problem in EEG source analysis

Socially assistive robotics for post-stroke rehabilitation

Approximate entropy detects the effect of a secondary cognitive task on postural control in healthy young adults: a methodological report

Simulating hemispatial neglect with virtual reality

Locomotor adaptation to a powered ankle-foot orthosis depends on control method