Right, that is how I have understood it as well. If the round-trip time indicates that the attaching UE is beyond the configured cell-radius, the ENB simply refuses that UE service.
-- Nathan ________________________________ From: [email protected] <[email protected]> on behalf of David Peterson <[email protected]> Sent: Tuesday, January 3, 2017 9:39 AM To: Adam Moffett; [email protected] Subject: Re: [Telrad] Uplink capacity The only thing I can conjecture is that you can set a cell distance to keep your install crew from going beyond where you want customer installations. David From: [email protected] [mailto:[email protected]] On Behalf Of Adam Moffett Sent: Tuesday, January 3, 2017 12:40 PM To: [email protected] Subject: Re: [Telrad] Uplink capacity I guess I'm matching cell radius by habit, I have no basis to believe that it affects the frame structure. ....except if it doesn't matter then why is it there? ------ Original Message ------ From: "Nathan Anderson" <[email protected]<mailto:[email protected]>> To: "[email protected]<mailto:[email protected]>" <[email protected]<mailto:[email protected]>> Sent: 1/2/2017 5:34:59 PM Subject: Re: [Telrad] Uplink capacity I should also clarify that my post was intended to be a question rather than a statement of fact to be disputed (thus the "right?" at the end :-)), and I appreciate all of the input. To clarify, my impression up to this point was that no additional guards were required for co-channels because 1) they were built into the spec anyway and 2) the Compacts had unusually good filtration/rejection at the channel edges, and that keeping co-located Compacts on neighboring channels configured with the same timing parameters had nothing to do with it. It sounds like this assumption was in error, and that this applies down to the SSF as well? Adam, in your initial reply, in addition to referring to "max range" at one point when it was clear you meant SSF, you also did say that "if you have different config, ssf, or cell radius on 3 different co-located units..." The fact that you listed "cell radius" immediately after "ssf" is confusing, especially since the "cell radius" setting changes nothing about the frame structure (again, "right?"). Can you clarify what your intent was here? Thanks much, -- Nathan From: [email protected]<mailto:[email protected]> [mailto:[email protected]<mailto:[email protected]>] On Behalf Of David Peterson Sent: Monday, January 02, 2017 2:19 PM To: [email protected]<mailto:[email protected]> Subject: Re: [Telrad] Uplink capacity I agree with you on that only I would change “weird problems” with destructive interference rendering your tower mostly unusable. I really only meant my post as a clarification of LTE transmission protocols…. David From: [email protected]<mailto:[email protected]> [mailto:[email protected]] On Behalf Of Adam Moffett Sent: Monday, January 2, 2017 5:13 PM To: [email protected]<mailto:[email protected]> Subject: Re: [Telrad] Uplink capacity I'm standing by answer. Just sub the words "max range" with "special sub frames". I knew what I meant. I'm assuming the hypothetical 5 overlapping sectors would all have GPS on and matching timing parameters. I do believe that would work, but the part I disagreed with was having 3 co-located units with mismatched timing. I haven't tried it (at least not intentionally), but I'm guessing you would have some kind of weird problems. I'm thinking it would partially work because you're only self-interfering on a portion of the frame and part of the channel, but some subtle weirdness would happen. ------ Original Message ------ From: "David Peterson" <[email protected]<mailto:[email protected]>> To: "[email protected]<mailto:[email protected]>" <[email protected]<mailto:[email protected]>> Sent: 1/2/2017 4:58:24 PM Subject: Re: [Telrad] Uplink capacity Keep in mind that the cell size parameter is not directly connected to the TDD split. The subframe configuration does adjust the cell size maximum but setting the maximum cell setting smaller in the ENB does not change the TDD split. In all synchronized systems the transmit/receive cycles must be exactly the same. Any deviation causes interference enough to disrupt the ability for the system to function properly. In a recent call I received, a customer had turned off GPS for testing on a new sector. They were not able to achieve network entry until we turned off the synchronized system so we could test the non-synchronized system. As far as co-channel interference, in a LTE/WiMax type of system each sub-channel has a co-channel rejection of 25dB. In addition the full channel has guard sub-channels built into the protocol. So there is no reason to add additional guard frequencies on the Telrad product. You should be able to provision 5 10MHz channels all facing the same direction without self-interference. (Seems like a waste of spectrum ☺) David From: [email protected]<mailto:[email protected]> [mailto:[email protected]<mailto:[email protected]>] On Behalf Of Adam Moffett Sent: Monday, January 2, 2017 3:30 PM To: [email protected]<mailto:[email protected]> Subject: Re: [Telrad] Uplink capacity I'm going to have to (partially) disagree there. On a given channel size and center frequency you have the peak energy output on that desired channel, but the unit is emitting energy on frequencies adjacent to the desired channel. If you have different config, ssf, or cell radius on 3 different co-located units then some of them are transmitting during a portion of the others receive cycle. So if the parameters don't line up and the channels are too close together then you'll have uplink interference on one or more of them. It would only be during a portion of the frame, so the effects might be subtle. The one with the shorter max range would have the longer tx cycle, so I believe the one(s) with the longer max range would see the symptoms (whatever those symptoms are). The statement could be true if you're using very small channels or if you have a wider band to work with than 3650-3700. If you're using 10mhz channels then you might need to put two un-synced units on opposite ends of the band to avoid self interference. I'm doubtful that 3 could fit. On 5mhz or smaller, maybe. -Adam I want to use config 1, but we have had terrible luck with it (makes things randomly worse). Subframe change has to be system-wide only in cases where a CPE can potentially hear more than one eNB on the same channel, or two eNBs on the same channel can hear each other or are otherwise colocated with each other, right? If you have 3 sectors each on a different channel on top of a tower in the middle of nowhere, I'd think you could safely choose a different config on each of them if desired. Also, is the main subframe config the only thing that has to be consistent, or does special sub also have to be as well? If we have eNBs with differing cell-radius set, I would like to set the SSF to be the optimum for that cell-radius size on an eNB by eNB basis to eke out the best performance on each one. -- Nathan From: [email protected]<mailto:[email protected]> [mailto:[email protected]] On Behalf Of Adam Moffett Sent: Saturday, December 31, 2016 9:31 AM To: [email protected]<mailto:[email protected]> Subject: Re: [Telrad] Uplink capacity On an eNB with 40 CPE, we've observed that we don't get more than 300-400kbps upload on a single UE....and yeah the eNB flattens out before I think it should. We're on a 20mhz channel, Configuration 2, SSF 2, and 2x4. We will compare with 2x2. We might try Config 1, but since that's a system wide change it won't be right away. I think it's understood that you only get 16QAM upload right now, but I was under the impression that was an issue with the CPE. I'm know some of you have experimented with 3rd party CPE, and I'm wondering: Do you get more upload speed with those and does 64QAM uplink works with them? -Adam We are still fighting upload capacity problems on our more loaded sectors. To catch y'all up, we are running 15MHz channels and subframe profile 2. Some observations I have made: 1. Those eNBs running 6.6 seem to peak out on upload capacity at around 85% utilization, according to BreezeView. Has anyone else noticed this? When upload is getting hammered, the KPI graphs flatline uplink utilization at 85% and it NEVER crosses that line. eNBs on 6.5 will still approach 100%. Is this just a reporting bug or what? 2. With the combination of 15MHz channels + subframe profile 2, we seem lucky if we can ever push a total combined uplink rate of 2Mbit/s from all attached CPEs. Does this sound right to anyone? This seems very low to me. And as I said in an earlier post, our retransmits are below 2% and uplink MCS is staying at 20 or higher > 90% of the time. (I am currently observing the same eNB as I referenced in that earlier post.) Also, what are current best practices as of 6.6? With the introduction of weak UE protection, is it advisable to turn that on and then go back to EqualRate scheduling? I have set this particular Compact (30 CPEs) to EqualRate on both down and up, and activated weak UE @ level 2 with the default MCS indexes for level 2. It's probably too early to tell, but I don't think this is making a signficant difference. -- Nathan From: Nathan Anderson Sent: Thursday, December 22, 2016 12:31 AM To: [email protected]<mailto:[email protected]> Subject: RE: [Telrad] More CPE8K woes As a follow-up to the iperf bit, there is an "accept" rule at the top of the iptables firewall input chain on the EPC for its *management* IP. Maybe Telrad expects you to run iperf traffic between ENB and EPC across the management VLAN and not the main EPC interface/bearing VLAN. You should be able to have iperf explicitly bind to the management interface on both ends (iperf -B A.B.C.D where A.B.C.D is the management IP for either the EPC or ENB in question that you are invoking this on) and then on the client side specify the other end's management IP for the -c parameter. However, this only works if you don't have 'switching vlan-assignment epc-access-if-list' defined on your EPC, as we do. If you are using that for whatever reason (e.g., site-based EPC instead of centralized, although there are other scenarios), you cannot send management traffic directly between the EPC and ENB. This isn't being blocked by iptables, but is something happening at a lower level (something to do with how VLANs are being tagged and forwarded between the various ports and the internal CPU port by the switch chip). Telrad may have failed to consider this when adding the iperf feature. -- Nathan From: [email protected]<mailto:[email protected]> [mailto:[email protected]] On Behalf Of Nathan Anderson Sent: Thursday, December 22, 2016 12:14 AM To: [email protected]<mailto:[email protected]> Subject: Re: [Telrad] More CPE8K woes Is it possible to get retransmission rates for uplink? I thought only downlink stats were available from the eNB (which makes sense, since the eNB would have no idea how many times each CPE had to retransmit unless the CPEs were reporting that information back to it somehow). Are you talking about pulling figures from the CPE somehow, or getting this information elsewhere? On the sector I'm looking at, single retransmit blocks in the DL direction are about 1.4% of total blocks. According to old notes I have, 1% is supposed to be good. I don't know whether I should worry about the extra .4%, but I'm also not sure how this relates to uplink health (if at all). As far as percentages go for uplink modulation, 87% of all uplink bits were sent MCS 23, if we include MCS 20 + 23 together that rises to 91%, and if we include 19 + 20 + 23 together, that accounts for 94%. Are those good numbers? They seem fairly good to me. (I sure would love to see what individual CPEs are doing for modulation in either direction at any given time...) We have also been raising uplink AMBRs as well to help deal with this. Which seems to help some, and which I think is weird that it helps. For example, if I have uplink limited to 1.5Mbit/s, a radio on this sector might be able to average 300-400kbit/s. If I change that radio to an AMBR profile that has the uplink limit set to 10Mbit/s, then all of a sudden in the same conditions (minutes later, after changing that UE's profile and kicking it off the EPC) I see more like 800-1000kbit/s from the same CPE! These numbers are the same with both iperf TCP (on the radio) or RouterOS bandwidth-test (router behind the radio), 5 parallel streams in either case, very repeatable (at that same time of day). What the...? If roughly 1Mbit/s of capacity is available, and a given UE is set to 1.5Mbit/s of upload, why can't it achieve that 1Mbit/s unless I raise it to some crazy high number first? Why does throughput instantly double when I lift that AMBR value? So it sounds like you are telling me that you are doing a similar thing and just cranking those AMBR numbers way up on the EPC, but then you are using something else (RouterOS?) to queue packets up upstream? And you get better performance this way? I believe it based on what we have experienced (above), but it seems to me that this really shouldn't be the case. Shouldn't the EPC be working in tandem with the eNB to provide the best and most efficient airtime utilization possible? I don't think the issue with iperf is with you. I cut my teeth on iperf2 and even I can't get it to work right on the Compacts and BreezeWay. From what I can tell, problems appear to be multi-fold. BreezeWay has a "drop all TCP connections indiscriminately" rule at the end of its iptables firewall input chain. That's the primary problem as far as I can tell. Once that is out of the way, or an exception is added for TCP port 5001 earlier, it works, but the bundled iperf binary is somewhat buggy. The -r and -d options don't work right and the device that is playing the iperf server role fails to connect back to the other in client mode and crashes out when it is time to run a reverse-direction test. So you have to individually launch iperf as a server on both ends separately in order to test both directions. I remember running into a similar problem with the iperf2 binary packaged with some version of Ubuntu a while back, and I had to grab the iperf sources, patch them, and rebuild them before that switch worked right. It appears Compact and BW both have unpatched 2.0.5 with at least this bug present. -- Nathan From: [email protected]<mailto:[email protected]> [mailto:[email protected]] On Behalf Of Jeremy Austin Sent: Wednesday, December 21, 2016 10:22 PM To: [email protected]<mailto:[email protected]> Subject: Re: [Telrad] More CPE8K woes On Wed, Dec 21, 2016 at 7:44 PM, Nathan Anderson <[email protected]<mailto:[email protected]>> wrote: but this upload capacity thing is what caused me to try pushing 6.6 out to more Compacts, even though I have read reports of similar-sounding issues from others here who have fully upgraded...just wanted to make sure I have all bases covered. We haven't had stability issues per se with 6.6. We've had some success raising upload AMBR, and shaping upstream. What kind of retransmission rate are you seeing on the constrained sectors in the upload direction, in extended stats? We have one in particular that — despite having a verified clean channel — acts as if it's experiencing interference. Despite a very high SINR! And some truly bizarre spectrum analyzer results that aren't corroborated by other, colocated ENBs. I'm also not finding it easy running iperf between EPC and ENB, at Telrad's recommendation. I must be more used to the syntax of iperf3, because I don't have it correct yet. -- Jeremy Austin (907) 895-2311 (907) 803-5422 [email protected]<mailto:[email protected]> Heritage NetWorks Whitestone Power & Communications Vertical Broadband, LLC Schedule a meeting: http://doodle.com/jermudgeon _______________________________________________ Telrad mailing list [email protected]<mailto:[email protected]> http://lists.wispa.org/mailman/listinfo/telrad _______________________________________________ Telrad mailing list [email protected]<mailto:[email protected]> http://lists.wispa.org/mailman/listinfo/telrad
_______________________________________________ Telrad mailing list [email protected] http://lists.wispa.org/mailman/listinfo/telrad
