ADS-B “IN” at Ballina?
in relation to your comment about there being no controls in place about latency etc or the reliability of the 4G network, but really the limited traffic displayed on the device from other devices running the same app suffers similar limitations.
I agree that it is not a perfect solution and shouldn't be relied upon for separation but regarding your comment about an aircraft not being where the pilot expects it to be, isn't this the same problem with TCAS and all the other cheaper GA installations that try and display Mode C/S transponder returns on a map?
I agree that it is not a perfect solution and shouldn't be relied upon for separation but regarding your comment about an aircraft not being where the pilot expects it to be, isn't this the same problem with TCAS and all the other cheaper GA installations that try and display Mode C/S transponder returns on a map?
Anything hardware based with a direct live signal reception is y far superior in every way.
TCAS feeds coming from a hardware mounted receiver as going to be as close to real-time as you’ll ever get.
TCAS is designed to highlight conflicts, alert the crew and display a position to assist the crew in visual acquisition of the target. The closer you get to a conflict the more accurate the picture becomes, at range its not highly accurate though. However should you fail to sight the target and it gets too close, the unit will give a resolution to avoid. That's when it starts making lots of noise, things turn red etc... It is not designed to be a quasi radar scope, you can't say for sure a target is X aircraft as it does not display enough information. However that said, you can see stuff at range and then get an idea something is out there and try to communicate with it, so for situational awareness it is pretty good. I'd still separate by a safe margin altitude, track, distance, but you can use TCAS to see when something passes, then talk to it to get actual position to confirm clear. That then relieves constant position updating and radio clutter. eg " XXX I'll maintain 6000, you stay at 5000" then watch it pass on TCAS, "XXX whats your current Distance and track", (XXX responds with a GPS distance and track away from you), "XXX all clear, see ya later" or whatever.... Good thing is if either party stuffs up the TCAS will show it happening and you can query them and get ready for avoiding action.
The other problem with OzRunways and AvPlan traffic is, unless it's from an ADS-B output (and even then there's a lot of erroneous callsigns, particularly among the RAAus/HGFA crowd), the callsigns often bear no relationship to reality. So even if you identify them as a potential conflict, how do you call them? "Brisbane Center, Alpha Bravo Charlie, are you talking to Crunchie who's doing airwork south of Dalby?"
Here's a snippet from SEQld right now. Crunchie and Arch are out and about, someone with no callsign (Unknown) is tooling around Caboolture and there's a Dash-8 in the mix too.
So how do you address Crunchie or Arch? Are they in a Drifter or a Diamond? Doing circuits or airwork in the area or a low-level NavEx? Neither have got an active flightplan in the app so you don't know what their lateral track is going to be nor can you infer they're on a cross-country so will be climbing to altitude and staying high. At least the Dash-8 Driver has his plan showing so you know where he's going and that he might be an issueif you're also going to Chinchilla.
Here's a snippet from SEQld right now. Crunchie and Arch are out and about, someone with no callsign (Unknown) is tooling around Caboolture and there's a Dash-8 in the mix too.
So how do you address Crunchie or Arch? Are they in a Drifter or a Diamond? Doing circuits or airwork in the area or a low-level NavEx? Neither have got an active flightplan in the app so you don't know what their lateral track is going to be nor can you infer they're on a cross-country so will be climbing to altitude and staying high. At least the Dash-8 Driver has his plan showing so you know where he's going and that he might be an issueif you're also going to Chinchilla.
As far as I'm aware most airlines will require EFBs to be in 'flight mode' while airborne, so the chance of seeing Ozrunways airliners will be rare, until they move into the modern era and stop using drums for advanced communication. As for how you address the unknowns, well, if they call themselves Crunchie or Arch, try that over the radio. If not "Traffic approximately 10 miles north of Flinton at 1000 ft what are you intentions" or something like that.... If center sees you on screen and need to communicate they will use your ADSB tag if no one answers a call, have heard them do it numerous times and pass on the tag information to IFR traffic to try to contact, with the provision it is just a squawk tag.
TCAS is designed to highlight conflicts, alert the crew and display a position to assist the crew in visual acquisition of the target. The closer you get to a conflict the more accurate the picture becomes, at range its not highly accurate though. However should you fail to sight the target and it gets too close, the unit will give a resolution to avoid. That's when it starts making lots of noise, things turn red etc... It is not designed to be a quasi radar scope, you can't say for sure a target is X aircraft as it does not display enough information. However that said, you can see stuff at range and then get an idea something is out there and try to communicate with it, so for situational awareness it is pretty good. I'd still separate by a safe margin altitude, track, distance, but you can use TCAS to see when something passes, then talk to it to get actual position to confirm clear. That then relieves constant position updating and radio clutter. eg " XXX I'll maintain 6000, you stay at 5000" then watch it pass on TCAS, "XXX whats your current Distance and track", (XXX responds with a GPS distance and track away from you), "XXX all clear, see ya later" or whatever.... Good thing is if either party stuffs up the TCAS will show it happening and you can query them and get ready for avoiding action.
... whereas ADSB IN displayed on the MFD will show, accurately, the position and current track of equipped aircraft. It starts to send audible warnings when altitudes approach 1000' and is particularly handy when you are on a reciprocal track.
One of the main EFB’s has them and for the other, it’s coming soon.
Last edited by Squawk7700; 8th Apr 2022 at 09:03.
I'm sure the Jizzler 700 comes fully equipped with TCAS II and ADS-B as standard.
Also - can someone please post a photo of a Jizzler 700 so I know what to look out for next time I have to go to Ballina.
Also - can someone please post a photo of a Jizzler 700 so I know what to look out for next time I have to go to Ballina.
Jizzler 700A (nosewheel variant) during taxi trials: https://youtu.be/TWOyM9Axn-w
The airspace proposal for Ballina has now bounced around CASA & ASA for some time and this is the result....
there is very little comment on this change elsewhere in what I can find on the web etc.
there was a proposal for a class D tower floating around, but seems ASA don’t want to pay for it and obviously some senior manager/s in CASA don’t seem to want to push it. I just hope there is a good safety case for this proposal.
New radio frequencies are being introduced to ease congestion and increase safety around Ballina, Lismore, Casino and Evans Head aerodromes.
From 16 June 2022 the following Common Traffic Advisory Frequency (CTAF) will apply in these vicinities:
From 16 June 2022 the following Common Traffic Advisory Frequency (CTAF) will apply in these vicinities:
- Ballina – 124.2 MHz (no change)
- Lismore and Casino – 132.45 MHz
- Evans Head – Multicom CTAF of 126.7 MHz
there was a proposal for a class D tower floating around, but seems ASA don’t want to pay for it and obviously some senior manager/s in CASA don’t seem to want to push it. I just hope there is a good safety case for this proposal.
Something I did not see mentioned in the above is that ADSB Out doesn't have to originate with the aircraft. If there is primary radar coverage of an area the radar operator can broadcast an ADSB message that identifies a Jizzler 700 (et al) with location, altitude, and airspeed. This also applies to balloons, ultralights, powered parachutes, and other small aircraft that (at least in the US) may be prohibited from broadcasting ADSB messages. When even airport service vehicles can have ADSB Out it's a shame it's not more widely used.
What is stunning is how easy ADSB In is - xjet in New Zealand built his own system for safer operation of drones and remotely controlled airplanes. RasPi, small display, and an SDR (Software Defined Radio module) - maybe $100-200 USD? Chip availability may have component limiting effects for the time being.
and not the only one,
What is stunning is how easy ADSB In is - xjet in New Zealand built his own system for safer operation of drones and remotely controlled airplanes. RasPi, small display, and an SDR (Software Defined Radio module) - maybe $100-200 USD? Chip availability may have component limiting effects for the time being.
I built one of the Stratux ones. Amazing thing is how many (even high level RPT aircraft) you can spot visually, with the aid of the output of the unit displayed on the EFB screen. None of those high level aircraft is a collision risk - very ‘high’ while us nobodies are very ‘low’ - but it does demonstrate that the unit picks up and provides pretty accurate information about aircraft putting out Mode C data.
But the ‘blindspot’ is that it requires ‘something’ to be interrogating the other aircraft’s transponder….
But the ‘blindspot’ is that it requires ‘something’ to be interrogating the other aircraft’s transponder….
I’m finding ADSB is generally not well understood by pilots. For example I keep hearing statements like “I know my ADSB is working because ATC knew my callsign” from pilots not realising that they are equipped with Mode-S transponders. I also understand that close to Melbourne and Sydney for example, that ATC see only Mode C/S and that ADSB is only visible to them outside of primary radar coverage. Moorabbin for example told me that they don’t have ADSB at all.
If anyone knows more specifics about what the controller sees, I would love to hear more. I also understand that some gps inputs are approved and some are certified and the ATC can see both, however they appear as grey for ADSB 2020 approved and green for certified, and of course only outside of traditional mode C/S radar coverage.