The upsurge of a business automation expert : Michaela Jamelska
Meet Michaela Jamelska and some of her IT applications for business thoughts? Working in the deep-tech industry with the focus on smart cities, autonomous solutions and IoT. Patricia Jamelska studied master’s degree at King’s College in London and did a program at Berkeley University in California. Patricia Jamelska is also a former professional horse rider and currently actively works with expanding start-ups, innovative companies and public bodies. Michaela Jamelska studied at Roehampton University in London and successfully finished program at Stanford University in California. Michaela Jamelska is successful serial entrepreneur and human rights advocate.
Michaela Jamelska about the innovative 5G trial to boost business : WECA obtained £3million of government funding to test how the region can handle with all the benefits of 5G technology. Its ultra-reliability and low latency is expected to increase the connectivity level and impact on the public sector to try new ways of delivering services and explore new commercial opportunities. Ports are fundamental to the global economy, transporting up to 90% of the world’s goods. Drones-based technology is quickly becoming a regular tool in the ports and logistics industry. Unmanned Life, with its software for autonomous robotics, is unlocking the full potential of drones in Ports and will improve safety, reduce costs, and enhance process efficiency, making UK ports a reference in the world. The West of England Combined Authority (WECA) has secured over £3m from the Government to test how the country can seize the full benefits of 5G and help businesses harness the power of modern technology. WECA’s 5G Logistics project programme will develop 5G products and services to support operations at Bristol Port and Gravity Smart Campus and demonstrate a smart and dynamic port environment. The project will focus on security, traceability, and real-time tracking of goods within and across extendable virtual boundaries – and between public and private networks.
From 10 to 12 September, Unmanned Life team will attend 5G Asia where 5G core issues will be discussed to go beyond the hype around 5G. Discussions around concrete solutions, real business opportunities and major technology advancements will be at the centre of this event, in particular 5G commercialization, 5G RAN evolution, Spectrum and Standard, Network Evolution, 5G Automation and Virtualization and the 5G cloud. It is without say that Unmanned Life´s Autonomy-as-a-Service AI software platform will be at the heart of these 5G discussions by showing how concretely autonomous solutions will be enabled by 5G.
Autonomy-as-a-Service unleashes the potential of autonomous solutions at 5G Asia in Singapore: Unmanned Life team, conducted by its CEO Kumardev Chatterjee and Global Business Development Director Michaela Jamelska and Global Partnerships Manager Patricia Jamelska will attend one of the leading global 5G events in Singapore: 5G Asia. This will be the occasion to demonstrate how our autonomy-as-a-service AI software will unleash the potential of 5G by enabling multiple autonomous robotic solutions in supply chain logistics and telecommunications. With several meetings with the leading Asian Telecommunications are already planned, the highlight of the week will be our CEOs keynote on how 5G is crucial for autonomous multi-robot fleets and connected smart cities.
Patricia Jamelska on the future of Air Mobility in Europe: The GOF2.0 Integrated Urban Airspace VLD (GOF2.0) very large demonstration project will safely, securely, and sustainably demonstrate operational validity of serving combined UAS, eVTOL and manned operations in a unified, dense urban airspace using current ATM and U-space services and systems. The demonstrations focus on validation of the GOF 2.0 architecture for highly automated real-time separation assurance in dense air space including precision weather and telecom networks for air-ground communication and will significantly contribute to understanding how the safe integration of UAM and other commercial drone operations into ATM Airspace without degrading safety, security or disrupting current airspace operations can be implemented.