Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
García, Fernando
Jiménez, Felipe
Anaya, José
Armingol, José
Naranjo, José
and
De la Escalera, Arturo
2013.
Distributed Pedestrian Detection Alerts Based on Data Fusion with Accurate Localization.
Sensors,
Vol. 13,
Issue. 9,
p.
11687.
Garcia, Fernando
de la Escalera, Arturo
and
Armingol, Jose Maria
2013.
Enhanced obstacle detection based on Data Fusion for ADAS applications.
p.
1370.
García, Fernando
Jiménez, Felipe
Puertas, Enrique
Naranjo, José. E.
Armingol, José María
and
Fernández, Javier
2013.
Pre-collision systems for urban environment accidents avoidance.
Securitas Vialis,
Vol. 5,
Issue. 1-3,
p.
25.
Martín, D.
García, F.
Musleh, B.
Olmeda, D.
Peláez, G.
Marín, P.
Ponz, A.
Rodríguez, C.
Al-Kaff, A.
de la Escalera, A.
and
Armingol, J.M.
2014.
IVVI 2.0: An intelligent vehicle based on computational perception.
Expert Systems with Applications,
Vol. 41,
Issue. 17,
p.
7927.
Jiménez, Felipe
Naranjo, José
Gómez, Oscar
and
Anaya, José
2014.
Vehicle Tracking for an Evasive Manoeuvres Assistant Using Low-Cost Ultrasonic Sensors.
Sensors,
Vol. 14,
Issue. 12,
p.
22689.
García, Fernando
de la Escalera, Arturo
and
Armingol, José María
2014.
International Technology Robotics Applications.
Vol. 70,
Issue. ,
p.
79.
Ponz, Aurelio
Rodríguez-Garavito, C. H.
García, Fernando
Lenz, Philip
Stiller, Christoph
and
Armingol, J. M.
2015.
Smart Cities, Green Technologies, and Intelligent Transport Systems.
Vol. 579,
Issue. ,
p.
237.
Seo, Dongwook
Kurnianggoro, Laksono
Hariyono, Joko
Hernandez, Danilo Caceres
and
Jo, Kang-Hyun
2016.
Compound road environment recognition method using camera and laser range finder.
p.
591.
Jiménez, Felipe
Clavijo, Miguel
Naranjo, José Eugenio
and
Gómez, Óscar
2016.
Improving the Lane Reference Detection for Autonomous Road Vehicle Control.
Journal of Sensors,
Vol. 2016,
Issue. ,
p.
1.
Galip, Feyza
Sharif, Md. Haidar
Caputcu, Mehmet
and
Uyaver, Sahin
2016.
Recognition of Objects from Laser Scanned Data Points Using SVM.
p.
28.
Jiménez, Felipe
Naranjo, José Eugenio
Anaya, José Javier
García, Fernando
Ponz, Aurelio
and
Armingol, José María
2016.
Advanced Driver Assistance System for Road Environments to Improve Safety and Efficiency.
Transportation Research Procedia,
Vol. 14,
Issue. ,
p.
2245.
Garcia, Fernando
Martin, David
de la Escalera, Arturo
and
Armingol, Jose Maria
2017.
Sensor Fusion Methodology for Vehicle Detection.
IEEE Intelligent Transportation Systems Magazine,
Vol. 9,
Issue. 1,
p.
123.
Ashraf, Imran
Park, Yongwan
Lee, El-Hang
and
He, Sailing
2018.
Effects of fog attenuation on LIDAR data in urban environment.
p.
77.
Sharif, Md. Haidar
2020.
Pattern Recognition and Artificial Intelligence.
Vol. 1144,
Issue. ,
p.
133.
Guo, Mengge
Shang, Shiliang
Haifeng, Cui
Zhang, Kaijiong
Deng, Weishun
Zhang, Xi
and
Yu, Fan
2020.
Control Model of Automated Driving Systems Based on SOTIF Evaluation.
SAE International Journal of Advances and Current Practices in Mobility,
Vol. 2,
Issue. 5,
p.
2900.
Liu, Jingyi
2020.
Research on Pedestrian Detection and Vehicle Distance Algorithms of Electric Vehicle Based on Image Processing.
International Journal of Pattern Recognition and Artificial Intelligence,
Vol. 34,
Issue. 05,
p.
2054014.
Vasile, Ionuț
Tudor, Emil
Sburlan, Ion-Cătălin
Gheți, Marius-Alin
and
Popa, Gabriel
2021.
Experimental Validation of LiDAR Sensors Used in Vehicular Applications by Using a Mobile Platform for Distance and Speed Measurements.
Sensors,
Vol. 21,
Issue. 23,
p.
8147.
Khatab, Esraa
Onsy, Ahmed
Varley, Martin
and
Abouelfarag, Ahmed
2021.
Vulnerable objects detection for autonomous driving: A review.
Integration,
Vol. 78,
Issue. ,
p.
36.
Khatab, Esraa
Onsy, Ahmed
and
Abouelfarag, Ahmed
2022.
Evaluation of 3D Vulnerable Objects’ Detection Using a Multi-Sensors System for Autonomous Vehicles.
Sensors,
Vol. 22,
Issue. 4,
p.
1663.
Andert, Edward
and
Shrivastava, Aviral
2022.
Accurate Cooperative Sensor Fusion by Parameterized Covariance Generation for Sensing and Localization Pipelines in CAVs.
p.
3595.