En marcha

Participación en Startup Olé 2024

Salamanca, Castilla y Leon, Spain

Startup OLÉ 2024 se llevará a cabo del 8 al 10 de octubre y ha reunido a lo largo de su historia a más de 40.000 asistentes de más de 120 países, con más de 1.500 startups, scaleups y spin-offs; más de 1.200 ponentes; y más de 300 corporaciones e inversores con un portafolio de inversión superior a los 100.000 millones de euros. El IEEE participará en este prestigioso evento, aportando su experiencia y recursos para fomentar la innovación y el desarrollo tecnológico. Esta colaboración permitirá a los asistentes beneficiarse del vasto conocimiento y las oportunidades de networking que ofrece el IEEE, especialmente en áreas clave como la ciberseguridad, la inteligencia artificial y la transformación digital. Invitamos a todos los interesados a unirse a nosotros en Startup OLÉ 2024 para explorar nuevas oportunidades y formar parte de esta vibrante comunidad de innovación. ¡No te lo pierdas! Co-sponsored by: Startup Olé 2024 Salamanca, Castilla y Leon, Spain

Seminar "Hybrid Lunar Satellite and Cooperative Radio Navigation" by Dr. Robert Pöhlmann from DLR

Room: QC/3115.3 Seminari G, Bldg: Engineering School, Carrer de les Sitges s/n, Bellaterra, Cataluna, Spain, 08193

The Research Group on Signal Processing for Communications and Navigation (SPCOMNAV) of Universitat Autonoma de Barcelona organizes the following seminar on Wednesday, October 9th, 16h-17h, Room: UAB Engineering School QC/3115.3 Seminari G. Hybrid Lunar Satellite and Cooperative Radio Navigation A large number of space missions to the Moon are planned, which require accurate and reliable position, navigation and timing (PNT). There are plans for lunar satellites operating under the frame of LunaNet, which shall provide communications and PNT for orbit and surface users. Especially in an early phase, the number of satellites will be very limited. To ensure high availability and high accuracy for PNT, hybrid satellite navigation and cooperative radio navigation has been suggested. In this talk, different aspects of hybrid lunar navigation are investigated. First, we provide an estimation theoretic analysis of hybrid navigation by deriving the Bayesian Cramér-Rao bound. Second, we evaluate different distributed estimation algorithms for hybrid navigation regarding accuracy, scalability, flexibility and robustness. Third, we introduce a software-defined radio (SDR) setup for analogue experiments and provide a preliminary evaluation of measurement data. Robert Pöhlmann received the B.Sc. and M.Sc. degrees in electrical engineering and information technology from the Technical University of Munich (TUM) in 2014 and 2016, respectively. He then joined the Institute of Communications and Navigation, German Aerospace Center (DLR) as a Research Staff Member. In 2022, he received the Ph.D. with distinction from the Kiel University. He is a recipient of the VDE ITG dissertation award 2023. His current research interests include cooperative and hybrid localization as well as statistical signal processing for multi-antenna systems. Room: QC/3115.3 Seminari G, Bldg: Engineering School, Carrer de les Sitges s/n, Bellaterra, Cataluna, Spain, 08193