{"id":923,"date":"2021-11-11T23:11:00","date_gmt":"2021-11-11T22:11:00","guid":{"rendered":"https:\/\/www.geonatives.org\/?p=923"},"modified":"2022-01-03T20:59:32","modified_gmt":"2022-01-03T19:59:32","slug":"build-new-or-process-existing","status":"publish","type":"post","link":"https:\/\/www.geonatives.org\/?p=923","title":{"rendered":"Build Something New or Process the Existing"},"content":{"rendered":"\n

(5 min read)<\/sub><\/p>\n\n\n\n

Automated driving is complex and if you think you tackled all relevant situations in your Operational Design Domain<\/a>, a new rare event pops up and lets the system fall into despair<\/a>. You have to incorporate this new scenario as well (with a suitable amount of training data) without deteriorating the whole system. And to be honest: Every automated driving provider would have to do this. One solution would be to reduce complexity as we propose as GEONATIVES think tank.<\/p>\n\n\n\n

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Complex-looking road situations. Can you deal with them or should they get simplified? (South Korea (top) and Taiwan (bottom), images by Andreas Richter)<\/em><\/figcaption><\/figure>\n\n\n\n

Build New Expedient Infrastructure<\/h2>\n\n\n\n

One initiative with this simplification mission being active for some time is Cavnue<\/a>. Cavnue was founded by Sidewalk Infrastructure Partners which was funded by Alphabet. Cavnue\u2019s thesis is that currently, reality is too complex for automated driving and therefore complexity should be reduced! They want to deploy private money “creatively” to build special-purpose lanes<\/a> hosting assisted and automated driving vehicles.<\/p>\n\n\n\n

Specific new lanes will be equipped with additional road infrastructure such as communication and sensor technology to support the automated driving vehicle. Additionally, these new lanes will be separated from the ordinary traffic. The idea is to cut down the threat of the appearance of unpredictable traffic participants and different vehicle types to reduce complexity. The return of all of this investment will be generated by collecting a road toll of up to one US Dollar per driven mile. However, maintenance shall be covered by federal funds…<\/p>\n\n\n\n

Well, one of the challenges in today’s mobility we have is the limited space. Now, we want to reserve a specific lane for these vehicles and the available space is going to be reduced for the conventional vehicles. To have overtaking possibilities (esp. for emergency vehicles) we need at least two lanes per direction per vehicles type, because of the lane separation. You will also need some kind of overtaking possibility in case of a breakdown. Especially in dense urban environments this could become complicated and currently bicycle riders rightly claim more space for the growing amount of two-wheelers as well. In these urban areas we still have to interact with all the remaining road users at one point: Intersections and crossings often cannot be avoided. And how to continue with the drive when the special-purpose lane ends? Switching back to manual driving? What happens with SAE Level 4<\/a> vehicles without a driver seat (and steering wheel) after leaving such a dedicated lane?<\/p>\n\n\n\n

Nevertheless, there is one flagship project in Michigan<\/a> organized by Cavnue: 40 Miles of the Interstate 94 and the Michigan Avenue between Detroit and Ann Arbor, MI, would be retrofitted to include a dedicated lane for self-driving vehicles. It is quite interesting to see that they start with the least complex road type you could come up with: Motorways. They already come with separation of driving directions, there are (in general) no level crossings or intersections. The majority of the traffic travels with similar speed and very easily to predict trajectory. Mobileye is already traveling with 130 km\/h on German motorways<\/a> in Level 4 for testing purpose.<\/p>\n\n\n\n

But first Cavnue will let test automated driving on the conventional roads for two years and then set up a prototypic one-mile test lane on which testing will continue. The focus is on automated buses and is supposed to improve transit. They also claim that new jobs will be created, such as remote operators and staff to monitor the buses and to greet riders. Liftboy is a job of everybody\u2019s dreams of all times. And “solving the infrastructural issues” mentioned in the previous paragraph is also part of the flagship project\u2026<\/p>\n\n\n\n

Process the Exiting Infrastructure<\/h2>\n\n\n\n

Is this a good investment? The question is already on the table. What about trying to assess the current infrastructure and make it more intelligible for automated driving? We all know that a high-definition map is one of the keys for automated driving. Let\u2019s add a new layer to the existing data and tell if the roads are easy to handle.<\/p>\n\n\n\n

One initiative with this idea in mind is the Connected and Autonomous Vehicles Road Scoring Index<\/a>. In their comprehensive report<\/a> they analyzed the current challenges of automated driving and broke them down into index parameters that can be derived from already existing databases or data collection methods. The determined index will be applied to map data. This makes it possible to access this information using standard geographic information systems (GIS).<\/p>\n\n\n\n

The proposed index parameters<\/a> are road marking quality, road sign visibility, communication coverage and positioning accuracy, weather, junction control, traffic participant access, surface reflectivity, road environment complexity and road traffic collision rates. All these parameters are graded from 1 to 3 from less suitable to more suitable to navigate for automated driving. With a weight on each parameter you can adapt the score to the capabilities of your system (e.g. no issues with positioning but more challenges with heterogeneous mix of traffic participants). At the end you could get a heat map with more and less complicated roads. For example, Cruise<\/a> is also removing (temporary) some roads (some low speed roads as well as highways) from their initial service area in San Francisco, CA. You could assess the cumbersome roads and check, if a telic investment (e.g. renewing of lane marks) could improve the score without rebuilding the complete road.<\/p>\n\n\n\n

Map-independent Processing Result Storage<\/h2>\n\n\n\n

Another more sophisticated approach is the Road2Automation<\/a> (R2A) concept by German Aerospace Center. R2A focuses also on road complexity and quality as well as on supporting (or distracting) equipment such as road-side units (RSU), but additionally includes information about the course of the road (regarding slope and curvature). The sophistication is twofold<\/a>:<\/p>\n\n\n\n