As far as I understand their technology this is not true. My understanding is that the system keeps a distance to a vehicle in front and corrects the steering should the vehicle leave the lane. Even Audi themselves…
These things not always work very reliably. A guy from a supplier once held a security talk at our university. They basically filter out unwanted messages, but the manufacturer often don't configure them very…
These are mostly used for diagnosing/debugging the newer head units. They rely on BT and standard networking. GCC is pretty standard for any embedded device, I would say.
Does the phone actually send the TCP packets multiple times? Then it would certainly put more stress on the network. Does anybody know how fairness compared to non-multipath TCP stacks is achieved?
You can just use iptables-apply. It achieves the same thing and is built-in. If you don't confirm the changes after they are applied, because you locked yourself out, they will be rolled back.
As far as I understand their technology this is not true. My understanding is that the system keeps a distance to a vehicle in front and corrects the steering should the vehicle leave the lane. Even Audi themselves…
These things not always work very reliably. A guy from a supplier once held a security talk at our university. They basically filter out unwanted messages, but the manufacturer often don't configure them very…
These are mostly used for diagnosing/debugging the newer head units. They rely on BT and standard networking. GCC is pretty standard for any embedded device, I would say.
Does the phone actually send the TCP packets multiple times? Then it would certainly put more stress on the network. Does anybody know how fairness compared to non-multipath TCP stacks is achieved?
You can just use iptables-apply. It achieves the same thing and is built-in. If you don't confirm the changes after they are applied, because you locked yourself out, they will be rolled back.