« zurück zum Suchergebnis

Investigating a toolchain from trajectory recording to resimulation

Titel:	Investigating a toolchain from trajectory recording to resimulation
Verfasser:	Luettner, Florian ; Kracht, Malte ; Köpke, Corinna ; Schmitt, Annette ; Fehling-Kaschek, Mirjam ; Stolz, Alexander ; Reiterer, Alexander
Körperschaft:	Professur für Resilienz technischer Systeme (Sonstige) Albert-Ludwigs-Universität Freiburg. Professur für Monitoring von Großstrukturen (Sonstige)
Veröffentlicht:	Freiburg : Universität, 2024
Umfang:	1 Online-Ressource
Format:	E-Book
Sprache:	Englisch

alg: 52630561
001A    $06000:06-02-25 
001B    $01999:17-04-25 $t21:07:01.000 
001D    $06000:06-02-25 
001U    $0utf8 
001X    $00 
002@    $0Oax 
002C    $aText $btxt $2rdacontent 
002D    $aComputermedien $bc $2rdamedia 
002E    $aOnline-Ressource $bcr $2rdacarrier 
003@    $0526305614 
004P    $010.3390/app142210682 
004U    $0urn:nbn:de:bsz:25-freidok-2590142 
006G    $01353822176 
006U    $025,O02 $f20250120 
007A    $01353822176 $aDNB 
009Q    $uhttps://doi.org/10.3390/app142210682 $xR 
009Q    $uhttps://nbn-resolving.org/urn:nbn:de:bsz:25-freidok-2590142 $xR 
009Q    $qapplication/pdf $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $xH 
010@    $aeng 
010E    $erda 
011@    $a2024 $n2024 
021A    $aInvestigating a toolchain from trajectory recording to resimulation 
028A    $aLuettner $BVerfasser $dFlorian $4aut 
028C    $aKracht $BVerfasser $dMalte $4aut 
028C    $aKöpke $BVerfasser $dCorinna $4aut 
028C    $BVerfasser $4aut $71251957722 $8Schmitt, Annette$Z1986- [Tp3] $9491027257 
028C    $BVerfasser $#Fehling-Kaschek, M. $#Kaschek, Mirjam Fehling- $4aut $71059249871 $8Fehling-Kaschek, Mirjam [Tp3] $9348257562 
028C    $BVerfasser $4aut $7144011468 $8Stolz, Alexander [Tp3] $9235145025 
028C    $BVerfasser $4aut $7139978283 $8Reiterer, Alexander [Tp1] $9218697538 
029F    $aProfessur für Resilienz technischer Systeme $BSonstige $4oth 
029F    $BSonstige $RAlbert-Ludwigs-Universität Freiburg $RAlbert-Ludwigs-Universität Freiburg $#Albert-Ludwigs-Universität Freiburg, Institut für Nachhaltige Technische Systeme, Professur für Monitoring von Großstrukturen $#University of Freiburg, Chair for Monitoring of Large-Scale Structures $4oth $71150790997 $8Albert-Ludwigs-Universität Freiburg$bProfessur für Monitoring von Großstrukturen [Tb3] $9424969203 
033A    $pFreiburg $nUniversität 
034D    $a1 Online-Ressource 
037A    $aApplied sciences. - 14, 22 (2024) , 10682, ISSN: 2076-3417 
037I    $uhttp://vocabularies.coar-repositories.org/access_rights/c_abf2 $fUnrestricted online access 
037J    $aOpen Access $2star $uhttp://purl.org/coar/access_right/c_abf2 $fUnrestricted online access 
045E    $c320 
046X    $aArchivierung/Langzeitarchivierung gewährleistet $5DE-101 
047I    $aAbstract: The growing variety of transportation options and increasing traffic congestion pose new challenges for road safety. As a result, there is an intensified focus on developing automated driving features and assistance systems aimed at minimizing accidents caused by human errors. The creation of these systems requires a substantial amount of testing kilometers, with estimates suggesting that around 2.1 billion kilometers would be necessary to ensure that each situation pertinent to the driving function is encountered at least once with a probability of 50%. This paper advances the microscopic simulation of traffic scenarios beyond linear patterns, utilizing the open-source environment openPASS. It addresses the research question of whether existing microscopic simulations are able to realistically represent non-linear traffic scenarios. A comprehensive toolchain integrates simulation with video recordings and laser scans. The study compares recorded traffic flow data with simulations at a T-junction, assessing the realism of vehicle models and trajectory representation. Three scenarios are analyzed, considering vehicles and pedestrians. The 3D geometry of the scene was captured with a laser scanner, enabling the mapping of recorded video data onto a geo-referenced environment. Object trajectories were extracted using an ’Regions with Convolutional Neural Networks features’ object detector. While openPASS simulated vehicle and pedestrian behaviors effectively, limitations in trajectory variability and reaction times were observed. These findings highlight the need for more realistic behavior models. This research emphasizes the necessity for improvements to accommodate complex driving behaviors and pedestrian dynamics 

lok: 52630561 3

exp: 52630561 3 1 #EPN
201B/01 $007-02-25 $t23:59:22.163 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583424 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 5

exp: 52630561 5 1 #EPN
201B/01 $007-02-25 $t23:59:22.167 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583432 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 8

exp: 52630561 8 1 #EPN
201B/01 $007-02-25 $t23:59:22.170 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583440 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 10

exp: 52630561 10 1 #EPN
201B/01 $007-02-25 $t23:59:22.174 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583459 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 11

exp: 52630561 11 1 #EPN
201B/01 $007-02-25 $t23:59:22.177 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583467 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 20

exp: 52630561 20 1 #EPN
201B/01 $007-02-25 $t23:59:22.179 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583475 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 21

exp: 52630561 21 1 #EPN
201B/01 $007-02-25 $t23:59:22.182 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583483 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 23

exp: 52630561 23 1 #EPN
201B/01 $007-02-25 $t23:59:22.185 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583491 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 24

exp: 52630561 24 1 #EPN
201B/01 $007-02-25 $t23:59:22.188 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583505 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 25

exp: 52630561 25 1 #EPN
201B/01 $007-02-25 $t23:59:22.192 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583513 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 36

exp: 52630561 36 1 #EPN
201B/01 $007-02-25 $t23:59:22.195 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583521 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 49

exp: 52630561 49 1 #EPN
201B/01 $007-02-25 $t23:59:22.199 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $0129158353X 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 54

exp: 52630561 54 1 #EPN
201B/01 $007-02-25 $t23:59:22.205 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583556 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 108

exp: 52630561 108 1 #EPN
201B/01 $007-02-25 $t23:59:22.211 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583572 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 204

exp: 52630561 204 1 #EPN
201B/01 $007-02-25 $t23:59:22.213 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583580 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH 

lok: 52630561 205

exp: 52630561 205 1 #EPN
201B/01 $007-02-25 $t23:59:22.217 
201C/01 $007-02-25 
201U/01 $0utf8 
203@/01 $01291583599 
208@/01 $a07-02-25 $bl 
209S/01 $S0 $uhttps://freidok.uni-freiburg.de/data/259014 $XH

LEADER	00000cam a22000002c 4500
001	526305614
003	DE-603
005	20250417210701.0
007	cr\|\|\|\|\|\|\|\|\|\|\|\|
008	250206s2024 xx \|\|\|\| o\| u00\|\|u\|eng
015			\|a 25,O02 \|2 dnb
016	7		\|2 DE-101 \|a 1353822176
024	7		\|a 10.3390/app142210682 \|2 doi
024	7		\|a urn:nbn:de:bsz:25-freidok-2590142 \|2 urn
035			\|a (DE-599)DNB1353822176
040			\|a DE-603 \|b ger \|c DE-603 \|d DE-603 \|e rda
041			\|a eng
084			\|a 320 \|q DE-101 \|2 sdnb
100	1		\|a Luettner, Florian \|e Verfasser \|4 aut
245	0	0	\|a Investigating a toolchain from trajectory recording to resimulation
264		1	\|a Freiburg \|b Universität \|c 2024
300			\|a 1 Online-Ressource
336			\|a Text \|b txt \|2 rdacontent
337			\|a Computermedien \|b c \|2 rdamedia
338			\|a Online-Ressource \|b cr \|2 rdacarrier
500			\|a Applied sciences. - 14, 22 (2024) , 10682, ISSN: 2076-3417
520			\|a Abstract: The growing variety of transportation options and increasing traffic congestion pose new challenges for road safety. As a result, there is an intensified focus on developing automated driving features and assistance systems aimed at minimizing accidents caused by human errors. The creation of these systems requires a substantial amount of testing kilometers, with estimates suggesting that around 2.1 billion kilometers would be necessary to ensure that each situation pertinent to the driving function is encountered at least once with a probability of 50%. This paper advances the microscopic simulation of traffic scenarios beyond linear patterns, utilizing the open-source environment openPASS. It addresses the research question of whether existing microscopic simulations are able to realistically represent non-linear traffic scenarios. A comprehensive toolchain integrates simulation with video recordings and laser scans. The study compares recorded traffic flow data with simulations at a T-junction, assessing the realism of vehicle models and trajectory representation. Three scenarios are analyzed, considering vehicles and pedestrians. The 3D geometry of the scene was captured with a laser scanner, enabling the mapping of recorded video data onto a geo-referenced environment. Object trajectories were extracted using an ’Regions with Convolutional Neural Networks features’ object detector. While openPASS simulated vehicle and pedestrian behaviors effectively, limitations in trajectory variability and reaction times were observed. These findings highlight the need for more realistic behavior models. This research emphasizes the necessity for improvements to accommodate complex driving behaviors and pedestrian dynamics
700	1		\|a Kracht, Malte \|e Verfasser \|4 aut
700	1		\|a Köpke, Corinna \|e Verfasser \|4 aut
700	1		\|a Schmitt, Annette \|d 1986- \|e Verfasser \|4 aut \|0 (DE-603)491027257 \|0 (DE-588)1251957722 \|2 gnd
700	1		\|a Fehling-Kaschek, Mirjam \|e Verfasser \|4 aut \|0 (DE-603)348257562 \|0 (DE-588)1059249871 \|2 gnd
700	1		\|a Stolz, Alexander \|e Verfasser \|4 aut \|0 (DE-603)235145025 \|0 (DE-588)144011468 \|2 gnd
700	1		\|a Reiterer, Alexander \|e Verfasser \|4 aut \|0 (DE-603)218697538 \|0 (DE-588)139978283 \|2 gnd
710	2		\|a Professur für Resilienz technischer Systeme \|e Sonstige \|4 oth
710	2		\|a Albert-Ludwigs-Universität Freiburg \|b Professur für Monitoring von Großstrukturen \|e Sonstige \|4 oth \|0 (DE-603)424969203 \|0 (DE-588)1150790997 \|2 gnd
856			\|u https://doi.org/10.3390/app142210682 \|x Resolving-System
856			\|u https://nbn-resolving.org/urn:nbn:de:bsz:25-freidok-2590142 \|x Resolving-System
856			\|q application/pdf \|u https://freidok.uni-freiburg.de/data/259014 \|x Verlag \|z kostenfrei
924	1		\|9 603 \|a (DE-603)1291583424 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583432 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583440 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583459 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583467 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583475 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583483 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583491 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583505 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583513 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583521 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)129158353X \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583556 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583572 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583580 \|b DE-603 \|c HES \|d d
924	1		\|9 603 \|a (DE-603)1291583599 \|b DE-603 \|c HES \|d d

Investigating a toolchain from trajectory recording to resimulation

Links

Folgen Sie uns auf...