Google is publishing scam ads featuring Dick Smith

I'm getting tired of seeing these scam ads that, if you click through them, take you to fake news pages that look like ABC news reporting that you can make millions in a few weeks with crypto currency.

Presumably Dick Smith isn't happy about this.

If you try to report the ad, there's only a few options to choose from and none really capture what is going on.

It's not just me, there's a Reddit thread here about the problem. Here's another:

It leads to this fake news page:

This page is hosted on a domain registered to Eugenii Ermolenkov at Atarbekova St. Moscow.

I think Google needs to take some responsibility for taking money to advertise scams and to illegally use people's image to add weight to these scams. Obviously there is a bit of a battle going on as recently Dick Smith is being spelt with diacritical marks.

Ham radio in lockdown

Although I moved from Sydney to Melbourne, the COVID lockdown has ironically led to me staying in touch with my Sydney friends more than I would have under normal circumstances. Here in Melbourne we are under a strict "stage 4" lockdown which means that very few shops are open (basically food, alcohol and chemists) and we can't visit anyone.

Happily people have gotten used to using video conferencing and so each week a bunch of us meet for a shared lunch while on Zoom. We did try Skype but the consensus is that Zoom worked better.

During the call Kevin, VK2KB and I made contact on 40m using JS8Call which we've been playing with lately. Conditions are not great and it's been useful to check the Sydney/Melbourne path using WSPR before attempting voice contacts.

The terrible RF noise here has stayed away and my end fed antenna is working pretty well although I'm getting a bit of RF into computer gear so I think the counterpoise which lays on the ground is not a good enough ground.

I'm very interested in all this new SDR development using small CPUs and have been following the uSDX project with great interest. Bill & Pete discussed this on a recent Soldersmoke podcast.

In an attempt to understand a bit more about how I & Q samples are transformed into a nice spectrum display and even demodulated I've been hacking some code to read samples from devices and trying to get those samples into the right format for FFT. So far I have code that can find and read samples from an RTL-SDR and an AirSpyHF+. I'm doing this on macOS and naturally I want to use the accelerated DSP libraries in Apple's Accelerate Framework. This is all changing thanks to a new "overlay" which makes it easy to use from Swift. My thanks to Barry Medoff for drawing my attention to the WWDC presentation on this.

It's starting to work, here's what the 40m band looks like with a few CW stations on it:

I've done some work on my WSPR Watch app for iOS and macOS recently. Graphs are better and some of the tiny text is now more legible. WSPR Watch can pull data from PSKReporter and JS8Call sends reception reports there so it's handy to be able to use the app to see who I'm hearing.

Local interference pattern emerging

 The terrible RF interference I see here right across HF looks like this:

But for three weekends in a row it goes off at 2:35pm local time on Sunday and the band looks pretty good for a suburban block. It comes back on again at 35 minutes after midnight. So, exactly 6 hours of peace a week.

What kind of appliance would be on all week except for Sunday afternoons?

The fundamental frequency, where it's strongest, seems to be at 421kHz where it's stronger than the local ABC Radio National transmitter here.

Another interesting pattern is that every 60 seconds, with good accuracy, the noise shifts slightly and then back. There is one example on the waterfall here.

Tecsun PL-365 on Longwave

Now that I've found the base frequency it seemed that I could locate it with a radio that receives longwave. I have a Tecsun PL-365 but it didn't seem to offer longwave even though it's listed as a feature. It turns out that longwave is disabled by default and frustratingly the manual's instructions for enabling it aren't quite right. 

The procedure that works for me is:

• Turn the radio off.
• Press the DEL (9/10k) button until it displays 9kHz (it switches between 10 and 9)
• Press the MW key until it displays "150-" (it alternates between 522)
• Turn the radio on, press MW and it will tune from 150kHz

As you can imagine, I've been walking around the neighborhood trying to find the source but it's very difficult to track down, perhaps due to the long wavelength.

Noise gone!

The broad spectrum noise I've been writing about ceased on Tuesday and hasn't come back. It's been three days now. Obviously it's possible that it could return but my theory is that it was some sort of battery charger that was being used by workers doing renovations next door.

I've just had a decent contact on 40m SSB with Kevin, VK2KB, who is in Sydney 677km from me. We have been running WSPR to figure out the best times to talk.

WSPR Watch update

There is an update to the WSPR Watch app in the iOS App Store. The recently added signal to noise graph has changed to a line chart and if you search the spot list for a callsign and then switch to the graphs the search stays.

This means you can use the SNR graph to find the best time to have a contact with a certain call.

Another welcome change is that there's a setting to show times in local rather than UTC.

Here's a graph showing SNR between me in Melbourne, Victoria and VK2ATZ near Newcastle NSW.

A few people have asked me about the use of colours on the map and graphs. Each band has a colour and I took the set used by WSPRnet.org. Unfortunately these colours sometimes have low contrast against Apple maps so it might help to switch to dark mode.

The dots on the map are as follows:

• Green is a receiving station
• Red is a transmitting station
• Purple is doing both

Note that I have limited the number of spots shown on the map as it gets too slow. I stop adding them at 2,000 which I know annoys at least one user (Hi Ross!).

A Telstra or NBN internet slowdown incident.

A few days ago we noticed that the internet was very slow. Pinging Google's DNS 8.8.8.8 showed about 20% ping loss. I logged in to the Telstra Wifi router and used the diagnostic to ping the same address and it also lost packets - so it's not within my network.

Here's how traceroute using mtr looked:

Checking for NBN outages on their status page found nothing.

I checked for any known outages on Telstra's outage page. They showed no known problems.

Next I ran their diagnostic and it seemed to agree that there was a problem and told me to ring a number, commenting that the operator would know what steps I'd already taken.

I powered off the cable router, waited a minute, powered it back on and after quite a long time all four lights became solid but the ping loss was the same.

Ringing the number, I was asked by the IVR to enter my account number, then day and month of my birthday. It asked if the phone I was calling from was linked to the account - it is. Pretty quickly I got on to someone (I guess in the Phillipines), they asked me again for my date of birth and for my name. They seemed to have no information about who I was or what I'd done.

They did some tests and asked for the MAC address of the cable modem. They asked me to turn it off, wait two minutes and turn it back on. I did. Eventually the lights came back on but the ping loss remained.

Yes! there's a fault. An NBN co technician would come to the house the next day between 8am and 12pm to fix my issue. Pretty good service I thought.

A few hours later the fault was resolved and I got a text saying that NBN co have competed further testing and no longer needed to visit.

Not much to complain about except to say that it surprises me that they can count every byte of upload and download for billing purposes but can't detect that the service is suffering major ping loss. Perhaps I'm quicker than the neighbours but I seem to be the first one to report an outage.

Things are back to normal and a trace route looks like this:

I'd love to know a bit more about the network. What is a vb08? What is a win-ice301? What's a win-core and ken-core?

A few more days have passed and an SMS just came in saying that I'll get a $7 credit to compensate for the disruption.

Nice.

Unreliable Wifi on a 2018 Mac mini - a workaround

When I bought this Mac mini (2018) it was used with a permanent ethernet connection and all was well. It's only now that we're in a new house where I must use Wifi in my office that this problem has emerged.

For periods of time, up to about 24 hours, all will be fine and I can reliably ping the Wifi router over 5GHz Wifi, but then things will slow down and I can see terrible ping loss as shown on the right.

As you can imagine, this causes all sorts of trouble using the machine on the internet.

Searching for a fault with an Apple product, or probably any product, makes you feel that the problem is incredibly widespread but I think that it's just the illusion of being able to find similar stories with great ease on a search engine.

I have found many similar stories and tried all of the suggestions. Finally, I've found a workaround that is working for me. I have tried:

• Rebooting everything (Wifi router, Mac)
• Moving the Wifi router to get a better signal (RSSI -65, Noise -90)
• Using a different Wifi router (Telstra modem and I tried a Google Wifi)
• Turning off Bluetooth (there are stories of it interfering with Wifi)
• Wiping the Mac and doing a clean install of macOS 10.15.6 Catalina (This seemed to work for about a day)
• Unplugging USB devices (Again, stories of interference)
• Running the built-in diagnostic, which found no hardware faults

In the end the solution for me is simply not to use Wifi. 

I have an old Thinkpad X230 on my desk running  Ubuntu 20.04.1 LTS which is used for WSPR, Fldigi, and other ham radio software. Following the instructions at Cesariogarcia I ran nm-connection-editor (which was already installed) and (slightly varying those instructions) edited the ethernet interface to set it's IPv4 settings to make it "Shared to other computers".

Open the Ethernet interface:

Edit the IPv4 settings to set the method like this:

I also changed the name so I'd remember. A pity this option isn't in the Sharing settings.

The Mac is plugged in with a normal Ethernet cable. (All recent Macs figure out if they need to cross over.) When I saved the setting on Linux the interface changed from "self assigned IP" to 10.42.0.42 with the router as 10.42.0.1.

I'd rather the laptop used bridge mode but I haven't figured that out yet.

Speed test isn't quite as fast as I can get when the Wifi was working reliably but it's much better than it was with 30% packet loss.

You can no doubt use a Raspberry Pi for this task and there are little Wifi routers that can do this too. The Thinkpad barely idles even when running a speed test. 

I hope this helps someone else with this issue. Incidentally, the Mac mini is out of warranty and I fear that if I take it to Apple it will work perfectly while they have it. I know I should give it a shot and I have had great experiences with the Genius folks in the past.

I've been monitoring with PeakHour and you can clearly see that ping loss (blue graph) has stopped since adding the linux gateway to the mac's network.

Apple has some tips on resolving Wifi and Bluetooth interference issues but this hasn't helped in my case. It might be worth trying before following my radical path.

What about printing etc?

One problem of having the Mac off the main network is that Bonjour zeroconf can't see the rest of the network so devices like the printer aren't immediately visible. (You can still get to them but you need to figure out the IP address).

The solution is to configure avahi-daemon on the Linux machine to "reflect". You do this by editing /etc/avahi/avahi-daemon.conf

[server]

allow-interfaces=enp0s25,wlp3s0

[reflector]

enable-reflector=yes

(I got the interface names by running ifconfig).

You need to restart avahi:

sudo service avahi-daemon restart

It takes a minute or two for the names to propagate. I check them on the Mac by using the excellent Discovery app from Lily Ballard.

Update - a USB Wifi adapter

As a simpler alternatie I ordered a Hungwu USB 3.0 Wifi Adapter via Amazon. 

It came with a mini CD containing the driver but I don't have anything that can take these disks. I found an open source driver that works here. It's a bit weird in that you get an additional Wifi menu bar item that has found networks in a non-standard font.

Pretty bad that it tries to take over Command-W and Command-O but happily this doesn't affect the Finder or other apps.

The seller responded to my message quickly and sent a link to a driver but the one I found is working fine so I'll stick with it for now.

So far it's working well with no ping loss 24 hours later and as good a speed as I've had with the native Apple Wifi interface.

Call me an old "fuddy-duddy" but I find <2ms ping times over a wireless network pretty amazing.  For now, I've retired the Linux wifi to ethernet router described above. Note that Airdrop and watch unlock don't work with this Wifi adapter.

Appeared on ABC RN's Download This Show

This week, to coincide with the 75th anniversary of the war in the Pacific, we talked about some of the technologies that were developed in that time of war that have shaped the world today.

As always, a pleasure to be a guest on the show. You can hear the full radio either across the ABC RN network or here.

It was (I think) an interesting show, other topics were the death of mouse inventor William English, research that seems to indicate that Tinder charges us old blokes more and the impending ban on WeChat and TikTok.

There is a segment edited for TV that goes to air on ABC News24 on Saturday morning and you can catch that on the YouTube channel below.

There's even a portrait edition for Facebook here and an Instagram TV version. Talk about multi-media!

We're all getting pretty good at making radio and TV from home. This week I used a pretty low end Logitech headset and mic and it sounded just fine.