Abstract
Despite developments in communication systems over the last few decades, a digital divide exists in the unconnected part of the world. The latter is characterized by large distances to internet access points, underdeveloped infrastructure, sparse populations, and low incomes. This concern of digital divide is raised in the sixth generation’s (6G) initial vision as an extremely important topic. However, it is important to understand affiliated challenges and potential solutions to achieve this vision. Motivated by the recent backhaul link forecasts that expect a dominance of the microwave technology within the backhauling market, this paper studies the potential of a low-power terrestrial microwave backhaul from the sufficient-data-rate and solar powering perspective. Competing technologies (e.g., fiber) may not be energy efficient and commercially viable for global connectivity. Since rural and remote areas may not have grid power, we look at the viability of alternative sustainable sources, in particular solar power, to power the wireless backhaul in 6G. In addition, we also explore services for the operators and users to use the system efficiently. Since the access points are connected to backhaul, we also compare the two prominent solutions based on low-power small-radius cells and a mega-cell that covers a large area and show insights on the power autonomy of the systems. In the end, we propose directions for research and deployment for an inclusive connectivity as a part of future 6G networks.
Highlights
Without a doubt, the digital divide between urban and remote/rural areas is a problem in our societies even in the 21st century
The unconnected or under-connected people often live in rural and remote areas characterized by low population density, low income or poverty, difficult terrain, and nonexistent or unreliable grid power supply
We evaluated how much power is needed in microwave links with sufficient data rates in remote areas to see their feasibility for solar-powered operation in various places around the globe
Summary
The digital divide between urban and remote/rural areas is a problem in our societies even in the 21st century. Since the access point has to be connected to the backhaul and possibly it has to be a low-power system and rely on the same power source, we analyzed the power needed in an example oasis and compared that with a mega-cell solution that could provide access to many oases using a single high tower This shows the feasibility of mega-cells as 6G remote area solutions with less networking costs for connection to the backhaul, at the expense of high energy consumption. Discussing (1) the challenges that hinder the evolution of the terrestrial microwave backhaul technology, (2) the current and the future popular use cases, (3) the involved stakeholders, and (4) the impact of the last-mile access (i.e., either low-power base station or mega-cell) on backhaul design in those isolated areas.
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