This paper presented the potential of smart phone to
provide support on mapping the indoor asset. The advantage of using
the smart phone to generate the indoor map is that it has the ability to
capture, store and reproduces still or video images; indeed most of us
do have this powerful gadget. The captured images usually used by
maintenance team to save a record for future reference. Here, these
images are used to generate 3D models of an object precisely and
accurately for efficient and effective solution in data gathering. Thus,
it could be a resource for an informative database in asset
management.
[1] Mor├│n, M., et al., A Smart Phone-based Personal Area Network for
Remote Monitoring of Biosignals 4th International Workshop on
Wearable and Implantable Body Sensor Networks (BSN 2007), S.
Leonhardt, T. Falck, and P. M├ñhönen, Editors. 2007, Springer Berlin
Heidelberg. p. 116-121.
[2] Chen, D., et al. Low-cost asset tracking using location-aware camera
phones. 2010: SPIE.
[3] WiseTrack. The Wise Way too Track your Assets Anytime and
Anywhere. 2010 [cited 2011 8 August]; Available from:
http://www.wisetrack.com/wireless.pdf.
[4] Samad, A.M., Mohd Isa, A.F., Nordin, T.E., and Abdullah, M.N., ,
Projek Pemetaan Fotogrammetri Jarak Dekat Berdigit (FJDB) [Digital
Close-Range Photogrammetric (DCRP) Mapping] Masjid Lama Kg.
Kuala Dal, Padang Rengas, Kuala KAngsar, Perak Darul Ridzuan.
Buletin GIS. Jabatan Ukur dan Pemetaan Malaysia, 2008: p. 44-51.
[5] Mohd Din, M.A.a.A., M.Y., Integration of GIS and Digital
Photogrammetry in Building Space Analysis, in Innovations in 3D Geo
Information Systems Lecture Notes in Geoinformation and Cartography.
2006. p. 721-735.
[6] Korumaz, M., and Korumaz, A.G., Reproduction of Turkish Traditional
Wall-Painting using Close Range Photogrammetry, A Case Study in
Gaziantep. International Archives of Photogrammetry, Remote Sensing
and Spatial Information Sciences, 2010. XXXVIII(Part 5): p. 367-371.
[7] Mussadiq, S.a.A., F., A realistic view of 3D models of artifacts using
photogrammetric approach, in International Conference of Emerging
Technologies. 2009: Islamabad. p. 44-43.
[8] Jauregui, L.M., and Jauregui, M., Terrestrial Photogrammetry Applied to
Architectural Restoration and Archaeological Surveys. International
Archives of Photogrammetry and Remote Sensing, 2000. XXXIII(Part
B5): p. 401-405.
[9] Crothers, H. GIS and Enterprise Asset Management. 2010 [cited 2011
8 August]; Available from:
https://blog.esri.com/Dev/blogs/waterutiities/archieve/2010/03/04/GISand-
Enterprise-Asset-Management.aspx
[10] Ismail, M.H., GIS Education and Potential Career in Malaysia. Buletin
GIS. Jabatan Ukur dan Pemetaan Malaysia, 2008: p. 11-21.
[11] Vesna, S., Terrestrial photogrammetry and application to modeling
architecturalobjects, in Architecture and Civil Engineering F.U. Series,
Editor. 2008, University of Novi Sad: Serbia. p. 113-125.
[12] Debevec, P., Modeling and Rendering Architecture from Photographs.
1996, University of California at Berkeley: California.
[13] Stanbridge, R. Photogrammetry a Practical Guide. 2010; Available
from:
http://www.buildingconservation.com/articles/photogram/photogrammet
ry.htm. .
[14] Canter, P., Stott, A., Rich, S., and Querry, J.L. Creating georeferenced
indoor maps, images and 3D models: Indoor mapping for high accuracy
and productivity. The journal of the Chartered Institution of Civil
Engineering Surveyors 2010 [cited 2011 8 August]; Available from:
http://www.civilengineeringsurveyor.com.
[1] Mor├│n, M., et al., A Smart Phone-based Personal Area Network for
Remote Monitoring of Biosignals 4th International Workshop on
Wearable and Implantable Body Sensor Networks (BSN 2007), S.
Leonhardt, T. Falck, and P. M├ñhönen, Editors. 2007, Springer Berlin
Heidelberg. p. 116-121.
[2] Chen, D., et al. Low-cost asset tracking using location-aware camera
phones. 2010: SPIE.
[3] WiseTrack. The Wise Way too Track your Assets Anytime and
Anywhere. 2010 [cited 2011 8 August]; Available from:
http://www.wisetrack.com/wireless.pdf.
[4] Samad, A.M., Mohd Isa, A.F., Nordin, T.E., and Abdullah, M.N., ,
Projek Pemetaan Fotogrammetri Jarak Dekat Berdigit (FJDB) [Digital
Close-Range Photogrammetric (DCRP) Mapping] Masjid Lama Kg.
Kuala Dal, Padang Rengas, Kuala KAngsar, Perak Darul Ridzuan.
Buletin GIS. Jabatan Ukur dan Pemetaan Malaysia, 2008: p. 44-51.
[5] Mohd Din, M.A.a.A., M.Y., Integration of GIS and Digital
Photogrammetry in Building Space Analysis, in Innovations in 3D Geo
Information Systems Lecture Notes in Geoinformation and Cartography.
2006. p. 721-735.
[6] Korumaz, M., and Korumaz, A.G., Reproduction of Turkish Traditional
Wall-Painting using Close Range Photogrammetry, A Case Study in
Gaziantep. International Archives of Photogrammetry, Remote Sensing
and Spatial Information Sciences, 2010. XXXVIII(Part 5): p. 367-371.
[7] Mussadiq, S.a.A., F., A realistic view of 3D models of artifacts using
photogrammetric approach, in International Conference of Emerging
Technologies. 2009: Islamabad. p. 44-43.
[8] Jauregui, L.M., and Jauregui, M., Terrestrial Photogrammetry Applied to
Architectural Restoration and Archaeological Surveys. International
Archives of Photogrammetry and Remote Sensing, 2000. XXXIII(Part
B5): p. 401-405.
[9] Crothers, H. GIS and Enterprise Asset Management. 2010 [cited 2011
8 August]; Available from:
https://blog.esri.com/Dev/blogs/waterutiities/archieve/2010/03/04/GISand-
Enterprise-Asset-Management.aspx
[10] Ismail, M.H., GIS Education and Potential Career in Malaysia. Buletin
GIS. Jabatan Ukur dan Pemetaan Malaysia, 2008: p. 11-21.
[11] Vesna, S., Terrestrial photogrammetry and application to modeling
architecturalobjects, in Architecture and Civil Engineering F.U. Series,
Editor. 2008, University of Novi Sad: Serbia. p. 113-125.
[12] Debevec, P., Modeling and Rendering Architecture from Photographs.
1996, University of California at Berkeley: California.
[13] Stanbridge, R. Photogrammetry a Practical Guide. 2010; Available
from:
http://www.buildingconservation.com/articles/photogram/photogrammet
ry.htm. .
[14] Canter, P., Stott, A., Rich, S., and Querry, J.L. Creating georeferenced
indoor maps, images and 3D models: Indoor mapping for high accuracy
and productivity. The journal of the Chartered Institution of Civil
Engineering Surveyors 2010 [cited 2011 8 August]; Available from:
http://www.civilengineeringsurveyor.com.
@article{"International Journal of Information, Control and Computer Sciences:49725", author = "Shuib Rambat and Ruzsyahriman Jenal and John Elgy", title = "Indoor Mapping by using Smartphone Device", abstract = "This paper presented the potential of smart phone to
provide support on mapping the indoor asset. The advantage of using
the smart phone to generate the indoor map is that it has the ability to
capture, store and reproduces still or video images; indeed most of us
do have this powerful gadget. The captured images usually used by
maintenance team to save a record for future reference. Here, these
images are used to generate 3D models of an object precisely and
accurately for efficient and effective solution in data gathering. Thus,
it could be a resource for an informative database in asset
management.", keywords = "3D modeling, Asset Management, Object Extraction,
Smart Device", volume = "6", number = "3", pages = "275-3", }
