schliessen

Filtern

 

Bibliotheken

A Data Model for Using OpenStreetMap to Integrate Indoor and Outdoor Route Planning

With a rapidly-growing volume of volunteered geographic information (VGI), there is an increasing trend towards using VGI to provide location-based services. In this study, we investigate using OpenStreetMap data to integrate indoor and outdoor route planning for pedestrians. To support indoor and o... Full description

Journal Title: Sensors 2018, Vol.18(7), p.2100
Main Author: Wang, Zhiyong
Other Authors: Niu, Lei
Format: Electronic Article Electronic Article
Language: English
Subjects:
ID: E-ISSN: 14248220 ; DOI: 10.3390/s18072100
Zum Text:
SendSend as email Add to Book BagAdd to Book Bag
Staff View
recordid: proquest2108749424
title: A Data Model for Using OpenStreetMap to Integrate Indoor and Outdoor Route Planning
format: Article
creator:
  • Wang, Zhiyong
  • Niu, Lei
subjects:
  • Digital Mapping
  • Environment Models
  • Data Models
  • Urban Environments
  • Open Systems
  • Pedestrians
  • Location-Based Services
  • Route Planning
  • Workflow
  • Outdoor
  • Indoor Environments
  • Route Planning
  • Indoor
  • Outdoor
  • Openstreetmap
ispartof: Sensors, 2018, Vol.18(7), p.2100
description: With a rapidly-growing volume of volunteered geographic information (VGI), there is an increasing trend towards using VGI to provide location-based services. In this study, we investigate using OpenStreetMap data to integrate indoor and outdoor route planning for pedestrians. To support indoor and outdoor route planning, in this paper, we focus on the connections inside buildings and propose a data model, which uses OSM primitives (nodes, ways and relations) and tags to capture horizontal and vertical indoor components, as well as the connection between indoor and outdoor environments. A set of new approaches is developed to support indoor modeling and mapping. Based on the proposed data model, we present a workflow that enables automatic generation of a routing graph and provide an algorithm to calculate integrated indoor-outdoor routes. We applied our data model to a set of test cases. The application results demonstrate the capability of our data model in modeling built environments...
language: eng
source:
identifier: E-ISSN: 14248220 ; DOI: 10.3390/s18072100
fulltext: fulltext_linktorsrc
issn:
  • 14248220
  • 1424-8220
url: Link


@attributes
ID951879197
RANK0.042656247
NO1
SEARCH_ENGINEprimo_central_multiple_fe
SEARCH_ENGINE_TYPEPrimo Central Search Engine
LOCALfalse
PrimoNMBib
record
control
sourcerecordid2108749424
sourceidproquest
recordidTN_proquest2108749424
sourcesystemPC
pqid2108749424
display
typearticle
titleA Data Model for Using OpenStreetMap to Integrate Indoor and Outdoor Route Planning
creatorWang, Zhiyong ; Niu, Lei
ispartofSensors, 2018, Vol.18(7), p.2100
identifierE-ISSN: 14248220 ; DOI: 10.3390/s18072100
subjectDigital Mapping ; Environment Models ; Data Models ; Urban Environments ; Open Systems ; Pedestrians ; Location-Based Services ; Route Planning ; Workflow ; Outdoor ; Indoor Environments ; Route Planning ; Indoor ; Outdoor ; Openstreetmap
descriptionWith a rapidly-growing volume of volunteered geographic information (VGI), there is an increasing trend towards using VGI to provide location-based services. In this study, we investigate using OpenStreetMap data to integrate indoor and outdoor route planning for pedestrians. To support indoor and outdoor route planning, in this paper, we focus on the connections inside buildings and propose a data model, which uses OSM primitives (nodes, ways and relations) and tags to capture horizontal and vertical indoor components, as well as the connection between indoor and outdoor environments. A set of new approaches is developed to support indoor modeling and mapping. Based on the proposed data model, we present a workflow that enables automatic generation of a routing graph and provide an algorithm to calculate integrated indoor-outdoor routes. We applied our data model to a set of test cases. The application results demonstrate the capability of our data model in modeling built environments...
languageeng
source
version7
oafree_for_read
lds50peer_reviewed
links
openurl$$Topenurl_article
openurlfulltext$$Topenurlfull_article
linktorsrc$$Uhttp://search.proquest.com/docview/2108749424/?pq-origsite=primo$$EView_record_in_ProQuest_(subscribers_only)
search
creatorcontrib
0Wang, Zhiyong
1Niu, Lei
titleA Data Model for Using OpenStreetMap to Integrate Indoor and Outdoor Route Planning
descriptionWith a rapidly-growing volume of volunteered geographic information (VGI), there is an increasing trend towards using VGI to provide location-based services. In this study, we investigate using OpenStreetMap data to integrate indoor and outdoor route planning for pedestrians. To support indoor and outdoor route planning, in this paper, we focus on the connections inside buildings and propose a data model, which uses OSM primitives (nodes, ways and relations) and tags to capture horizontal and vertical indoor components, as well as the connection between indoor and outdoor environments. A set of new approaches is developed to support indoor modeling and mapping. Based on the proposed data model, we present a workflow that enables automatic generation of a routing graph and provide an algorithm to calculate integrated indoor-outdoor routes. We applied our data model to a set of test cases. The application results demonstrate the capability of our data model in modeling built environments...
subject
0Digital Mapping
1Environment Models
2Data Models
3Urban Environments
4Open Systems
5Pedestrians
6Location-Based Services
7Route Planning
8Workflow
9Outdoor
10Indoor Environments
11Indoor
12Openstreetmap
13route planning
14indoor
15outdoor
16OpenStreetMap
general
0English
1MDPI AG
210.3390/s18072100
3Medical Database
4Health & Medical Collection (Alumni edition)
5Medical Database (Alumni edition)
6Health & Medical Collection
7Electronics and Communications Abstracts
8Solid State and Superconductivity Abstracts
9Mechanical & Transportation Engineering Abstracts
10Materials Science Database
11Advanced Technologies & Aerospace Database
12Engineering Database
13Publicly Available Content Database
14Advanced Technologies Database with Aerospace
15Engineering Research Database
16Technology Research Database
17ProQuest Central
18ProQuest Engineering Collection
19ProQuest Advanced Technologies & Aerospace Collection
20ProQuest Hospital Collection
21ProQuest Materials Science Collection
22ProQuest Technology Collection
23Hospital Premium Collection (Alumni edition)
24ProQuest SciTech Collection
25ProQuest Health & Medical Complete
26ProQuest Medical Library
27Materials Science & Engineering Database
28ProQuest Central (new)
29ProQuest Central Korea
30SciTech Premium Collection
31Technology Collection
32Health Research Premium Collection
33Health Research Premium Collection (Alumni edition)
34ProQuest Central Essentials
35ProQuest One Academic
36Advanced Technologies & Aerospace Index (ProQuest)
37Engineering Index (ProQuest)
38Materials Science Collection (ProQuest)
39Engineering Collection (ProQuest)
sourceidproquest
recordidproquest2108749424
issn
014248220
11424-8220
rsrctypearticle
creationdate2018
addtitleSensors
searchscope
01000273
11006761
21006762
31007067
41007389
51007481
61007526
71007851
81007852
91007853
101007945
111008886
121009127
131009168
141009240
1510000012
1610000013
1710000015
1810000022
1910000039
2010000041
2110000045
2210000047
2310000049
2410000053
2510000118
2610000119
2710000120
2810000155
2910000156
3010000157
3110000158
3210000195
3310000203
3410000209
3510000233
3610000250
3710000255
3810000256
3910000258
4010000260
4110000265
4210000268
4310000270
4410000271
4510000281
4610000302
4710000348
4810000351
4910000353
5010000355
5110000356
5210000360
53proquest
scope
01000273
11006761
21006762
31007067
41007389
51007481
61007526
71007851
81007852
91007853
101007945
111008886
121009127
131009168
141009240
1510000012
1610000013
1710000015
1810000022
1910000039
2010000041
2110000045
2210000047
2310000049
2410000053
2510000118
2610000119
2710000120
2810000155
2910000156
3010000157
3110000158
3210000195
3310000203
3410000209
3510000233
3610000250
3710000255
3810000256
3910000258
4010000260
4110000265
4210000268
4310000270
4410000271
4510000281
4610000302
4710000348
4810000351
4910000353
5010000355
5110000356
5210000360
53proquest
lsr43
01000273true
11006761true
21006762true
31007067true
41007389false
51007481false
61007526false
71007851true
81007852true
91007853true
101007945true
111008886true
121009127true
131009168true
141009240true
1510000012false
1610000013false
1710000015false
1810000022false
1910000039true
2010000041true
2110000045true
2210000047true
2310000049true
2410000053true
2510000118true
2610000119true
2710000120true
2810000155true
2910000156true
3010000157true
3110000158true
3210000195false
3310000203false
3410000209false
3510000233true
3610000250true
3710000255true
3810000256true
3910000258true
4010000260true
4110000265true
4210000268true
4310000270true
4410000271true
4510000281true
4610000302true
4710000348true
4810000351false
4910000353false
5010000355true
5110000356true
5210000360true
startdate20180101
enddate20180101
citationpf 2100 vol 18 issue 7
lsr30VSR-Enriched:[pqid]
sort
titleA Data Model for Using OpenStreetMap to Integrate Indoor and Outdoor Route Planning
authorWang, Zhiyong ; Niu, Lei
creationdate20180101
lso0120180101
facets
frbrgroupid7302189780576345228
frbrtype5
newrecords20180923
languageeng
creationdate2018
topic
0Digital Mapping
1Environment Models
2Data Models
3Urban Environments
4Open Systems
5Pedestrians
6Location-Based Services
7Route Planning
8Workflow
9Outdoor
10Indoor Environments
11Indoor
12Openstreetmap
collection
0Medical Database
1Health & Medical Collection (Alumni edition)
2Medical Database (Alumni edition)
3Health & Medical Collection
4Electronics and Communications Abstracts
5Solid State and Superconductivity Abstracts
6Mechanical & Transportation Engineering Abstracts
7Materials Science Database
8Advanced Technologies & Aerospace Database
9Engineering Database
10Publicly Available Content Database
11Advanced Technologies Database with Aerospace
12Engineering Research Database
13Technology Research Database
14ProQuest Central
15ProQuest Engineering Collection
16ProQuest Advanced Technologies & Aerospace Collection
17ProQuest Hospital Collection
18ProQuest Materials Science Collection
19ProQuest Technology Collection
20Hospital Premium Collection (Alumni edition)
21ProQuest SciTech Collection
22ProQuest Health & Medical Complete
23ProQuest Medical Library
24Materials Science & Engineering Database
25ProQuest Central (new)
26ProQuest Central Korea
27SciTech Premium Collection
28Technology Collection
29Health Research Premium Collection
30Health Research Premium Collection (Alumni edition)
31ProQuest Central Essentials
32ProQuest One Academic
33Advanced Technologies & Aerospace Index (ProQuest)
34Engineering Index (ProQuest)
35Materials Science Collection (ProQuest)
36Engineering Collection (ProQuest)
prefilterarticles
rsrctypearticles
creatorcontrib
0Wang, Zhiyong
1Niu, Lei
jtitleSensors
toplevelpeer_reviewed
delivery
delcategoryRemote Search Resource
fulltextfulltext_linktorsrc
addata
aulast
0Wang
1Niu
aufirst
0Zhiyong
1Lei
au
0Wang, Zhiyong
1Niu, Lei
atitleA Data Model for Using OpenStreetMap to Integrate Indoor and Outdoor Route Planning
jtitleSensors
risdate20180101
volume18
issue7
spage2100
eissn14248220
formatjournal
genrearticle
ristypeJOUR
abstractWith a rapidly-growing volume of volunteered geographic information (VGI), there is an increasing trend towards using VGI to provide location-based services. In this study, we investigate using OpenStreetMap data to integrate indoor and outdoor route planning for pedestrians. To support indoor and outdoor route planning, in this paper, we focus on the connections inside buildings and propose a data model, which uses OSM primitives (nodes, ways and relations) and tags to capture horizontal and vertical indoor components, as well as the connection between indoor and outdoor environments. A set of new approaches is developed to support indoor modeling and mapping. Based on the proposed data model, we present a workflow that enables automatic generation of a routing graph and provide an algorithm to calculate integrated indoor-outdoor routes. We applied our data model to a set of test cases. The application results demonstrate the capability of our data model in modeling built environments...
copBasel
pubMDPI AG
doi10.3390/s18072100
urlhttp://search.proquest.com/docview/2108749424/
oafree_for_read
date2018-01-01