There's no reason why we can't do both intraplanetary and interplanetary Internet -- iust our own will stops us. But really, I like there being some places on earth where you have no access. I also like the idea of being able to see a live feed of Mars from Martian orbit.
I am indeed a huge supporter of advancing science. I believe the Internet to be the greatest invention of the past century, but it is too important to leave future advancement to a handful of companies that have no real commercial interest in making it faster or more widely available to people living in remote areas.
Ben Franklin, in all his wisdon, recognised the importance of universal Mail Delivery service and set it up in the new world over two centuries ago. It is so robust and reliable we still have it today. We should follow that inspiration for the Internet.
I think a "Moon Landing" type effort to find solution to a universal 1 GB/sec broadband internet available anywhere in the world will be the biggest boost to the world economy.
I am just saying we should get the best minds on this now, especially since there appears to be funds to do it, and leave the Interplanetery Internet for another day.
Not just that, Junko. Cavemen didn't find a cure for the common cold before changing their living arrangements.
I would think that satellites in geosynchronous orbit could be used to relay the laser comms down to earth, as RF, to solve the "clouds happen" problem. I think it would be cool to start establishing a set of extra-terrestrial Internet subnets. This shows why wasting IPv6 address space, as many people seem to do sans souci, may not be such a visionary policy.
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.