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"Cooperative ITS Driving
Simulator"
TOYOTA MOTOR CORPORATION. |
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The purpose of this
data is to give an easy experience "Corporate ITS" which is aiming the
safe traffic society by communicating between vehicles and between the
devices set on roads and vehicles. This system was showcased at ITS
World Congress in Detroit. In addition to the transmission system
between cars which the practical experiment is conducted in USA, the In
the created VR environment, the highway and downtown in Detroit is
reproduced in a high-precision VR environment. Combining with hardware
via 6-axis motion platform makes the environment more improved when
experiencing it. |
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"Simulation for
environmental upgrading around Higashi Takase river"
Fushimi Technical High School
in Kyoto |
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The improvements to the surrounding
environment of Higashi Takase River flowing along the west side of the
school is one of the regional challenges. A group of students
considered to devise a plan for the improvements as part of a task of
their research project. The students modeled and simulated the kind of
river environment the residents of this region wishes to have based on
their responses to the interview and questionnaires the students
conducted. They came up with the phrase "A river that brings people
together" as the theme of their research project. They devised an
integrated environment that incorporates a park located in the premise
of an apartment building into the entirety of the environment
surrounding the river as the improvement plan. |
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"QuikDeck Promotion VR
Data"
Nisso Industries Co., Ltd. |
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This VR data was
designed for the promotion of a new type of scaffolding constructed in
a new manner. The interior of the plant and beams were modeled as part
of the 3D VR environment to highlight the strong features of the new
scaffolding that do not exist in any other scaffolding. By allowing
people models to interact with the moving scaffolding, the work flow of
assembling the scaffolding can be confirmed. |
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"DSSS Experience VR Data"
UTMS Society of Japan |
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This driving simulator
is designed to give the general public an opportunity to experience
what's it like driving through roads equipped with Driving Safety
Support Systems (hereafter, DSSS) which include sensors mounted above
each roadway or alongside it that alert drivers via in-vehicle units.
The driver can drive along several courses which are mirror reflections
of their real world counterparts reproduced within the 3D VR
environment and choose one of 6 different types of scenarios to
experience. By comparing the behavior of the vehicle that has
in-vehicle units with other vehicles that do not have such units, the
effect of DSSS is visualized intuitively. |
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Honorable Judge's
Award Design Award
Mr. Fumio Seki (Nihon University) |
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"Residential Building
Design VR Simulation for N House"
atelier DoN |
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A case study in which
VR was used for housing design. It was used not only for design of the
appearance and inside but also for checking the view from the
surrounding in terms of privacy issue. CFD analysis was separately
conducted and then the temperature distribution and wind flow via air
conditioning system were visualized. Checking the site via AR was also
conducted and, in the future, VR-Cloud will be used for the conferences
with owners. |
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Honorable Judge's Award Accountability Award
Mr. Tatsuoki Inagaki (Pave & Road How-To Way Technology
Association) |
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"Construction VR
Simulation for the bridge replacement"
SOZOTECH |
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This VR model was
designed to run a 3D simulation that visualizes the entire process of a
bridge replacement construction work over a second class river from the
planning of construction to the completion of the work. The 3D
simulation includes the visualization of the construction steps to
build a temporary bridge as a detour for cars to cross over during the
bridge replacement construction work, the construction steps to install
the girder of the superstructure at night time, and the plan to divert
traffic due to construction. The scene of night time construction and
the visibility of a driver driving on a detour can be verified within
the 3D VR environment, the whole data being designed with the ultimate
goal of running the discussion among stakeholders more smoothly and to
obtain approval from the residents. |
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Honorable Judge's Award
Regional Construction Award
Mr. Hiroo Kasagi (NPO Chiiki Zukuri Kobo) |
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"Onuma Floating Istands
landscape simulation
Sanyu Eng. Ltd |
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ONUMA-NO-UKISHIMA
(Onuma Floating Islands) located in Asahi-cho Yamagata Prefecture in
Japan, was discovered in 680. The pond whose shape resembles a gourd
encompasses about 60 islands scattered all over the place and was
designated in 1925 as Yamagata's first National Scenic Area. With the
order-receiving for perimeter survey of a pond as a start, the nearby
shrine and bridge which is said to bring romance, the top-down and
birds eye view which are not actually happened and the island's
floating situation are expressed in VR environment. Moreover measuring
the point cloud can make it realized to express the more realistic
data. |
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"Driving support agent VR
simulation"
Doshisha University |
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This data is intended
to research development of next-generation cooperative driving support
agent simulation via VR environment. A movable 3D measurement system
make it possible to create VR data based on the measured point cloud
information and to reproduce the inside of the campus which is used as
a testing site for sensing a high degree of accuracy. The advanced
research can be now conducted by equipping with a driving simulator
with the parts of actual vehicle and an omnidirectional camera / laser
unit and building the system combined with a micro-mini electric
vehicle which can be automatically advanced controlled. |
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"G'EduCom in Bordeaux"
ITS Bordeaux La CUB & BMIA |
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The realistic immersion
of the users allows to test without constraints their reactions in
front of various situations: accident, pedestrians' crossing, difficult
weather conditions, heavy traffic... Wit h a touchpad command interface
the trainer checks the whole simulation via a simple interface. He can
inject events into various places of the driving route, modify weather
conditions, etc.... He can also ask questions (MCQ) to the trainees
through their own interactive tablet that they can use to interfere
with the VR as well as answering the questions. A full report of the
training session with C02 equivalent emission, fuel consumption and
time reactions to event is available on real time. |
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"Redlands California Flood
Analysis Project using VR"
Michael Baker International |
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The downtown area of
Redlands has been plagued by flooding with water of over 1 to 1.75
meters in depth contributed by four major watersheds that surround the
area and undersized aging infrastructure incapable of handling water of
such depth flooding from the watersheds for over 125 years. The City of
Redlands requested a comprehensive study to identify potential
improvements and their potential impacts whose results can be used to
establish flood risk maps in addition to establishing a basis for
future Drainage Impact Fees, and a solution can support public
approval. In response to this, Michael Baker International, in the
course of the project ordered by their client, analyzed the flood
hazards within the Redlands area larger than 2 square kilometers for
the 100-year storm event, and the risks associated with not improving
the existing storm drain infrastructure with the DTM surface that is
linked to the City's existing subsurface storm drain system by creating
a 1D/2D hydraulic model using xpswmm (a comprehensive software package
for dynamic modelling of stormwater, river systems, floodplains, and
sewage systems), and imported the analysis result into VR-Design Studio
to graphically show the flood hazards and the risks as 3D animation.
Sketchup building models, detailed aerial photograph, roads, trees,
lights, and a railroad were also included in VR-Design Studio's 3D
environment to make the scene even more realistic. The 3D-hybrid
animation created through this project depicting a link between xpswmm
and VR-Design Studio were also presented in an International Floodplain
Conference, and successfully play a big role of building consensus
among the stakeholders and communities to increase the city's Drainage
Impact Fees. |
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"Tokyo Metro Simulator"
Tokyo Metro Co., Ltd. |
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VR data created for the
driving experience simulator for showcasing at a PR facility. The both
up and down trains from Nishi-Kasai Station to Minami-Sunamachi Station
on the Tokyo Metro Tozai Line is expressed in VR environment. It is
possible to experience driving to the next station and even passing on
a bridge and in a tunnel. Evaluation will be displayed according to how
accurate the driver could stop the train via Scenario Function. |
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