5/7/2023 0 Comments Ftl faster than light rule 34![]() ![]() In fact, this may provide a good vehicle to analyze and test It should be possible to useĭropped packets as a way to mimic an FTL communication environment. This is due to the symmetrical nature of the 3-way handshake and itsĪbility to deal with dropped packets. That the 3-way handshake works in an FTL communication environment. It shows remarkable forethought by the inventors of the TCP protocol Handshake in an FTL environment would look like: Packets the backward time offset is canceled out), the TCP 3-way Larger than the backward time shift (i.e., after an exchange of The faster the communication isĪbove the speed of light, the more severe the problem becomes.Īssuming the first case where the processing time is equivalent or If the processing time is smaller than theīackward time shift, then it gets much harder, as many packets willīe received before they are sent. Order, TCP should still work due to the TCP symmetrical 3-way If the processing time is greater than theīackward time shift, then even though the packets are received out of The exact operation will depend on the difference between theīackward time (i.e., from the future to the past) and the processing For example, the first part of a TCP 3-way handshake True, because TCP B will receive the first SYN before TCP A In an FTL communication environment, this assumption is no longer Protocol (TCP), protocol activity is shown in timingīasic 3-Way Handshake for Connection Synchronization Most, if not all, Internet protocols were designed with the basicĪssumption that the sender would transmit the packet before the Protocol Design Considerations for FTL Communication This may be a viable approach for transmitting data FTL.Ģ. Magnetized neutron stars) and the acoustic emission by supersonic Their own waves could be responsible for the extreme properties ofīoth the electromagnetic emission from pulsars (rapidly spinning, Theoretical prediction that extended sources that move faster than Further relevant progress occurred with the Macroscopic polarization currents whose distribution patterns move Of subluminally-moving charged particles can give rise to Point-like, there are no physical principles preventing extendedįaster-than-light sources. ![]() though no superluminal source of electromagnetic fields can be describes a "polarization synchrontron", which pushes radio The effects of FTL communication can be found in. "Velocities Greater than that of Light" on page 54 of "The Theory of For example, it was discussed in 1917 in the section This acronym will be used in the remainder ofįTL issues have been discussed in the scientific literature for a There is a lot of discussion in the physics community about faster. Protocol Design Considerations for FTL Communication. RFC 6921 Design Considerations for FTL Communication 1 April 2013ġ. Please review these documentsĬarefully, as they describe your rights and restrictions with respect This document is subject to BCP 78 and the IETF Trust's Legal Information about the current status of this document, any errata,Īnd how to provide feedback on it may be obtained atĬopyright (c) 2013 IETF Trust and the persons identified as the The RFC Editor are not a candidate for any level of Internet Its discretion and makes no statement about its value for The RFC Editor has chosen to publish this document at This is a contribution to the RFC Series, independently of any other This document is not an Internet Standards Track specification it is Outlines some of the issues and suggests some directions for Major impact on the way we design Internet protocols. That packets will arrive before they are sent. The major consequence of this for Internet protocols is Logically, it is reasonable toĪssume that as we go faster than the speed of light, time will We are approaching the time when we will be able to communicateįaster than the speed of light. Request for Comments: 6921 Check Point Softwareĭesign Considerations for Faster-Than-Light (FTL) Communication ![]()
0 Comments
Leave a Reply. |