{
  "activity_count": 5,
  "callsign": "KP3JQQ",
  "confidence": 0.85,
  "first_seen": "2025-10-23T19:24:00+00:00",
  "found": true,
  "id": 190,
  "is_net_control": true,
  "last_seen": "2026-05-24T03:40:40.471191+00:00",
  "occurrence_count": 9,
  "profile": {
    "confidence": 0.6925,
    "counts": {
      "ncs": 0,
      "net": 3,
      "open_qso": 6
    },
    "data_freshness": "2025-11-08T19:34:04",
    "latest_topic": "car physics",
    "most_topic": "astronomy",
    "open_vs_net_bias_score": -0.508,
    "personal_summary": "KP3JQQ engages in discussions on astronomy and car dynamics, demonstrating a curious and analytical approach.",
    "scores": {
      "civility": 0.9,
      "focus": 0.7,
      "friendly": 0.8,
      "helpful": 0.6,
      "serious": 0.9,
      "technical": 0.7
    },
    "source": "legacy_callsign_profiles",
    "summary": "KP3JQQ frequently discusses astronomy and car physics, showing a broad interest in both topics.",
    "topic_coverage": {
      "astronomy": 0.5,
      "car physics": 0.5
    },
    "updated_at": "2025-12-24T17:12:25"
  },
  "qrz_status": null,
  "recent_transcripts": [
    {
      "callsign_confidence": 0.7,
      "confidence": 0.9298358112573624,
      "created_at": "2026-05-24T03:40:40.443365+00:00",
      "id": 1614,
      "node_number": "683210",
      "recording_id": 1614,
      "text": "They run into that same issue with us when you're doing a beacon that seems like Sunday and Wednesday night. We've got a couple of them. We've got a Canada hub and I connected up to the line in the host door node here. So I was watching the whole thing, KP3JQQ."
    },
    {
      "callsign_confidence": 0.7,
      "confidence": 0.9330238178372383,
      "created_at": "2026-05-24T03:40:06.679322+00:00",
      "id": 1611,
      "node_number": "683211",
      "recording_id": 1611,
      "text": "They run into that same issue with us when we were born to be in Sunday and Wednesday night. We've been WOO this time of clock. We're in Canada, hub and I connected up to WY-KV. I was watching the whole thing, KP3JQQ."
    },
    {
      "callsign_confidence": 0.7,
      "confidence": 0.7787821916373152,
      "created_at": "2026-05-24T02:41:41.905789+00:00",
      "id": 1441,
      "node_number": "683210",
      "recording_id": 1441,
      "text": "thought were interesting when you wait against you know naturally occurring forest fires in bad years okay back to you Kim I think the weather in in Hill, the back of Canada KP3JQQ that just smells like a really bad cigar and this is the E3KEX and there are a number of those two that you're mentioning even some that weren't mentioned because they're like reds, siphonate and lead as I both neurological contaminants they can take a lot of cubilate and condor, what's going on even the chloride you're mentioning the problem with those is for women, pregnant women that is neurologically damaging to the fetal that's the only thing to develop in self-development"
    },
    {
      "callsign_confidence": 0.7,
      "confidence": 0.76580331956639,
      "created_at": "2026-05-24T02:03:54.933212+00:00",
      "id": 1348,
      "node_number": "683210",
      "recording_id": 1348,
      "text": "And just before I go into the science trivia corner, that's God. I, you were commenting. I didn't quite catch what you were saying. As the evening progresses, the tropoducting is eating at your signal a little bit more and more. So you drop out early and you come back up. KP3JQQ. Okay, I got it. Thank you, God. And then a lot of the coming news. Well, a lot of people would be able to hear my translation. That would be good. Thank you. All right. Thanks, Ruby. I have a corner. There's three quiz questions and just one straight trivia for tonight."
    },
    {
      "callsign_confidence": 0.7,
      "confidence": 0.874231425247022,
      "created_at": "2026-05-24T01:02:22.358232+00:00",
      "id": 1188,
      "node_number": "683211",
      "recording_id": 1188,
      "text": "Good evening afternoon morning, out here at Radio Station. So before going further, could someone give me a signal report please? You are making it fine down here at the bottom of the test, me wondering the same question because our internet was down early tonight, so sounds like we're a go. KP3JQQ. And just having good here as well, VE5T-LV. Okay, that's great. Thank you for the report. Yeah, you're sounding good here tonight. So I'm going to raise the board. Your transmission here. All right, let's start things off. Good evening afternoon. Morning, out here at the stations of the Hudson Technet. Now I'll be starting at 9pm."
    },
    {
      "callsign_confidence": 0.85,
      "confidence": null,
      "created_at": "2025-11-08T19:32:05+00:00",
      "id": 77128,
      "node_number": "oldsys",
      "recording_id": 77127,
      "text": " Victor, I'm up to you. Let's keep our reside and check in for them."
    },
    {
      "callsign_confidence": 0.85,
      "confidence": null,
      "created_at": "2025-08-09T19:40:34+00:00",
      "id": 15642,
      "node_number": "oldsys",
      "recording_id": 15641,
      "text": " Many objects don't produce or affect the light, or at least not enough to see the naked eye or even detect from far away with even a telescope. And by and large, it's so long that it's easier to detect from extreme distances. And the longer wavelengths even have the benefit of going through dust and clouds and other debris in space. This is repeater station kilo kilo seven November- The first time we're looking to look further and further into the universe. So even the new telescope, the Fierce T. Reuben telescope that was recently activated, can't see as far into space because it has to contend with obstructions like that. So when the universe started, it was condensed into a hot mix of particles, protons and electrons. And as the universe expanded and cooled, the first stars in the galaxy began a little bit more than that in the beginning. First you had to have the universe cool enough so that those fundamental particles could then adhere to one another. It was way too hot for them to do that, so they could form neutral atoms. So at one point, as things cooled down, the first stars in the galaxy began to form. And the areas that can be seen are around 13.7 million years old, which is a little over 100 million years after the Big Bang. Which when you think of a telescope, is sort of like a wayback machine. You're looking at a time machine looking back into the universe. And the James Webb Space Telescope, people will see 90% of the way back to the Big Bang. And they see the expectations of most of the scientists involved in the planning of that telescope. So the James Webb Space Telescope, how does it be able to see that far out? That's due to the fact that space is expanding and stretching up the waves from visible light into infrared, Kp3JQQ."
    },
    {
      "callsign_confidence": 0.85,
      "confidence": null,
      "created_at": "2025-08-09T18:51:42+00:00",
      "id": 15596,
      "node_number": "oldsys",
      "recording_id": 15595,
      "text": " Okay, the air in the car, like the car is moving but the air in the car is staying put in the car. That doesn't make sense now that he said it out loud. Lincoln, maybe the driver bounced around on the seat at KP3JQQ. Okay, so I have a couple there in the air and I used to tell me about the seat belt. I'll have you come in and then begin with that and another was the tire. And Chris, you don't understand where you're coming from with that. I mean, the air relative to the inside of the car is moving. But it depends. Once you start, you turn left to right or speed up a bit. That air will be swashing around inside the car a bit. But oh, I understand what you're saying there. And then Scott, what was it you said? I didn't catch that. I was saying that the thing that moves the least amount would probably be the driver bouncing around on the seat. KP3JQQ. It's a driver on the seat. Got it. And this one here is actually the tire. And more specifically, it's the bottom of the tire. And as the tires are rotating, there's a point where they touch the ground. And it's where that point when they touch the ground, they've reached zero velocity in relation to the ground. So at that point, they're not moving until they start coming up again on the other side. So coming down, they've got a velocity once it hits the ground. And that moment, that very moment when it touches the ground in relation to the ground is standing still. And this takes time. And then that's part of the question. What part of the car is moving twice as fast as the body of the car? Guess that would have to be the top of the tire. KP3JQQ."
    },
    {
      "callsign_confidence": 0.85,
      "confidence": null,
      "created_at": "2025-07-26T20:16:10+00:00",
      "id": 10938,
      "node_number": "oldsys",
      "recording_id": 10937,
      "text": " you"
    }
  ]
}