![]() ![]() There are three types of microinfrastructure that will help assist with this densification, each of which has different advantages and disadvantages – microcells, femtocells and picocells. Microinfrastructure will play a critical role in densifying the network so that devices and applications that require a constant connection can be supported, and so that smartphones in busy, heavily populated urban areas can maintain a signal no matter how many people are around them and where they travel. That’s before you consider the expense of maintenance and the tower’s power requirements.ĥG networks are instead looking at microinfrastructure – compact antennas that are deployed alongside traditional macroinfrastructure. 5G towers take up a significant amount of space that cannot be found in a major city like London or New York, and even if authorities could identify a location, the height of the mast would be unsightly and would likely fall foul of local planning laws. Traditional masts are not suitable for such a task. As a result, operators will have to densify their networks to maintain reliability. However high range spectrum has low range and poor propagation qualities that make it a challenge to provide coverage – especially in urban areas. Running **jitsi-videobridge - have an nginx in the front with the default recommended conf, just appended the stuff in the doc link above.The millimeter (mmWave) spectrum covers higher frequencies than current 4G technology. ![]() : $SingletonSet cannot be cast to Īt .propert圜hange(VideoChannel.java:593)Īt .Propert圜hangeNotifier.firePropert圜hange(Propert圜hangeNotifier.java:126)Īt .pinnedEndpointsChanged(Endpoint.java:627)Īt .onPinnedEndpointChangedEvent(Endpoint.java:574)Īt .onJSONData(Endpoint.java:464)Īt .onStringData(Endpoint.java:735)Īt .onSctpPacket(SctpConnection.java:835)Īt .onSctpInboundPacket(SctpSocket.java:546)Īt .onSctpInboundPacket(Sctp.java:231)Īt .onConnIn(Sctp.java:204)Īt .runOnDtlsTransport(SctpConnection.java:1167)Īt .access$100(SctpConnection.java:56)Īt $1.run(SctpConnection.java:466) Java.io.IOException: Failed to send the dataĪt .sendString(WebRtcDataStream.java:146)Īt .sendMessageOnDataChannel(Endpoint.java:857)Īt .sendMessageOnDataChannels(Conference.java:237)Īt .onClientEndpointMessage(Endpoint.java:495)Īt .onJSONData(Endpoint.java:444)Īt .onStringData(Endpoint.java:744)Īt .onStringMsg(WebRtcDataStream.java:122)Īt .onSctpPacket(SctpConnection.java:775)Īt .onSctpIn(SctpSocket.java:517)Īt .onSctpInboundPacket(SctpSocket.java:542)Īt .onSctpInboundPacket(Sctp.java:230)Īt .on_network_in(Native Method)Īt .onConnIn(Sctp.java:203)Īt .onConnIn(SctpSocket.java:479)Īt .runOnDtlsTransport(SctpConnection.java:1092)Īt .access$000(SctpConnection.java:53)Īt $1.run(SctpConnection.java:442)Īt .runWorker(ThreadPoolExecutor.java:1145)Īt $n(ThreadPoolExecutor.java:615) SEVERE: Failed to send message on data channel. Jitsi sometimes crashes (looks like inside the native sctp lib) ![]() ![]() When using the DataChannel with high load (about 10 messages per second each datachannel) ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |