Mobile Delivery Robots: Mixed Reality-Based Simulation Relying on ROS and Unity 3D

Yuzhou Liu; Georg Novotny; Nikita Smirnov; Walter Morales Alvarez; Cristina Olaverri-Monreal

doi:10.1109/IV47402.2020.9304701

Mobile Delivery Robots: Mixed Reality-Based Simulation Relying on ROS and Unity 3D

Yuzhou Liu
, Georg Novotny
, Nikita Smirnov
, Walter Morales Alvarez
, Cristina Olaverri-Monreal

Abteilung für Intelligente Transportsysteme

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

Abstract

In the context of Intelligent Transportation Systems and the delivery of goods, new technology approaches need to be developed in order to cope with certain challenges that last mile delivery entails, such as navigation in an urban environment. Autonomous delivery robots can help overcome these challenges. We propose a method for performing mixed reality (MR) simulation with ROS-based robots using Unity, which synchronizes the real and virtual environment, and simultaneously uses the sensor information of the real robots to locate themselves and project them into the virtual environment, so that they can use their virtual doppelganger to perceive the virtual world. Using this method, real and virtual robots can perceive each other and the environment in which the other party is located, thereby enabling the exchange of information between virtual and real objects. Through this approach a more realistic and reliable simulation can be obtained. Results of the demonstrated use-cases verified the feasibility and efficiency as well as the stability of implementing MR using Unity for Robot Operating System (ROS)-based robots.

Originalsprache	Englisch
Titel	Proceedings IEEE Intelligent Vehicles Symposium 2020
Erscheinungsort	Las Vegas
Verlag	IEEE
Seiten	15-20
Seitenumfang	6
DOIs	https://doi.org/10.1109/IV47402.2020.9304701
Publikationsstatus	Veröffentlicht - Okt. 2020

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

SDG 11 – Nachhaltige Städte und Gemeinschaften

Wissenschaftszweige

303 Gesundheitswissenschaften
303008 Ergonomie
201306 Verkehrstelematik
202031 Netzwerktechnik
202036 Sensorik
202038 Telekommunikation
202040 Übertragungstechnik
203 Maschinenbau
211908 Energieforschung
211911 Nachhaltige Technologien
102 Informatik
102001 Artificial Intelligence
102002 Augmented Reality
102003 Bildverarbeitung
102013 Human-Computer Interaction
102015 Informationssysteme
102019 Machine Learning
102021 Pervasive Computing
102024 Usability Research
102026 Virtual Reality
102029 Praktische Informatik
102034 Cyber-Physical Systems
501026 Wahrnehmungspsychologie
501 Psychologie
501025 Verkehrspsychologie
201305 Verkehrstechnik
202 Elektrotechnik, Elektronik, Informationstechnik
202003 Automatisierungstechnik
202030 Nachrichtentechnik
202034 Regelungstechnik
202035 Robotik
202037 Signalverarbeitung
202041 Technische Informatik
203004 Fahrzeugtechnik
211902 Assistierende Technologien
211909 Energietechnik
211917 Technikfolgenabschätzung
501030 Kognitionswissenschaft

JKU-Schwerpunkte

Digital Transformation
Sustainable Development: Responsible Technologies and Management

Zugriff auf Dokument

10.1109/IV47402.2020.9304701

Dieses zitieren

@inproceedings{da768d9a0e874e5cb5db001204646af9,

title = "Mobile Delivery Robots: Mixed Reality-Based Simulation Relying on ROS and Unity 3D",

abstract = "In the context of Intelligent Transportation Systems and the delivery of goods, new technology approaches need to be developed in order to cope with certain challenges that last mile delivery entails, such as navigation in an urban environment. Autonomous delivery robots can help overcome these challenges. We propose a method for performing mixed reality (MR) simulation with ROS-based robots using Unity, which synchronizes the real and virtual environment, and simultaneously uses the sensor information of the real robots to locate themselves and project them into the virtual environment, so that they can use their virtual doppelganger to perceive the virtual world. Using this method, real and virtual robots can perceive each other and the environment in which the other party is located, thereby enabling the exchange of information between virtual and real objects. Through this approach a more realistic and reliable simulation can be obtained. Results of the demonstrated use-cases verified the feasibility and efficiency as well as the stability of implementing MR using Unity for Robot Operating System (ROS)-based robots.",

author = "Yuzhou Liu and Georg Novotny and Nikita Smirnov and \{Morales Alvarez\}, Walter and Cristina Olaverri-Monreal",

year = "2020",

month = oct,

doi = "10.1109/IV47402.2020.9304701",

language = "English",

pages = "15--20",

booktitle = "Proceedings IEEE Intelligent Vehicles Symposium 2020",

publisher = "IEEE",

}

TY - GEN

T1 - Mobile Delivery Robots: Mixed Reality-Based Simulation Relying on ROS and Unity 3D

AU - Liu, Yuzhou

AU - Novotny, Georg

AU - Smirnov, Nikita

AU - Morales Alvarez, Walter

AU - Olaverri-Monreal, Cristina

PY - 2020/10

Y1 - 2020/10

N2 - In the context of Intelligent Transportation Systems and the delivery of goods, new technology approaches need to be developed in order to cope with certain challenges that last mile delivery entails, such as navigation in an urban environment. Autonomous delivery robots can help overcome these challenges. We propose a method for performing mixed reality (MR) simulation with ROS-based robots using Unity, which synchronizes the real and virtual environment, and simultaneously uses the sensor information of the real robots to locate themselves and project them into the virtual environment, so that they can use their virtual doppelganger to perceive the virtual world. Using this method, real and virtual robots can perceive each other and the environment in which the other party is located, thereby enabling the exchange of information between virtual and real objects. Through this approach a more realistic and reliable simulation can be obtained. Results of the demonstrated use-cases verified the feasibility and efficiency as well as the stability of implementing MR using Unity for Robot Operating System (ROS)-based robots.

AB - In the context of Intelligent Transportation Systems and the delivery of goods, new technology approaches need to be developed in order to cope with certain challenges that last mile delivery entails, such as navigation in an urban environment. Autonomous delivery robots can help overcome these challenges. We propose a method for performing mixed reality (MR) simulation with ROS-based robots using Unity, which synchronizes the real and virtual environment, and simultaneously uses the sensor information of the real robots to locate themselves and project them into the virtual environment, so that they can use their virtual doppelganger to perceive the virtual world. Using this method, real and virtual robots can perceive each other and the environment in which the other party is located, thereby enabling the exchange of information between virtual and real objects. Through this approach a more realistic and reliable simulation can be obtained. Results of the demonstrated use-cases verified the feasibility and efficiency as well as the stability of implementing MR using Unity for Robot Operating System (ROS)-based robots.

U2 - 10.1109/IV47402.2020.9304701

DO - 10.1109/IV47402.2020.9304701

M3 - Conference proceedings

SP - 15

EP - 20

BT - Proceedings IEEE Intelligent Vehicles Symposium 2020

PB - IEEE

CY - Las Vegas

ER -