car hacks

471 Articles

Chess Set From Car Parts

May 29, 2017 by 23 Comments

Chess has been around for an awfully long time, automobiles less so. However, there’s no reason the two can’t be combined, like in this chess set fashioned from automotive components.

The project was made as a gift, and is the sort of thing that’s quite accessible for an interested maker to attempt at home. Parts used to build the set include valves, valve springs, spark plugs, castellated nuts and pipe fittings. As the parts don’t actually need to be in good working condition, a haul like this could likely easily be had for less than $50 from the local pull-it-yourself wrecking yard — or free if you know a mechanic with some expired engines lying around.

The metalworking side of things involves trimming down and welding together the parts, before polishing them up and applying a coat of paint to create the white and black, or in this case, gold and black pieces.

Overall, it’s a fun weekend project that could be tackled in any number of ways depending on your creativity and taste. For a different take, check out this 3D laser cut chess set.

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Ever Hear Of The Ford Cylon?

May 25, 2017 by 42 Comments

OK, we haven’t heard of a Ford Cylon either. However, there is now a Mustang Cobra out there that has been given a famous Cylon characteristic. [Monta Elkins] picked himself up an aftermarket third brake light assembly, hacked it, and installed it on said Mustang.

The brake light assembly contains 12 LEDs, which unfortunately, are not individually addressable. Additionally, by the looks of it, the brake light housing was not meant to be opened up. That didn’t get [Monta] down though. There’s more than one way to skin a cat, but he chose to use a hot knife to open the assembly, which worked quite well. A rotary cutter tool was used to cut the traces between the LEDs allowing them to be individually controlled with an Arduino. A Bluetooth module allows him to control the new brake light from his smartphone. There are different modes (including a special mode that he shows off at the end of the video) that can be selected via a Bluetooth Terminal app.

There is no schematic or code link in the video itself or the description, but [Monta] did hit the high points. Therefore, it shouldn’t be too hard to replicate.

This isn’t the first brake light hack we’ve featured. This one goes way beyond just animated lightsThis one requires no programming. Rather wear your brake light? We’ve got your back(pack).

Blackberry Eyes Up Car Anti-Virus Market

May 19, 2017 by 73 Comments

[Reuters] reports that BlackBerry is working with at least two car manufacturers to develop a remote malware scanner for vehicles, On finding something wrong the program would then tell drivers to pull over if they were in critical danger.

The service would be able to install over-the-air patches to idle cars and is in testing phase by Aston Martin and Range Rover. The service could be active as early as next year, making BlackBerry around $10 a month per vehicle.

Since the demise of BlackBerry in the mobile phone sector, they’ve been hard at work refocusing their attention on new emerging markets. Cars are already rolling computers, and now they’re becoming more and more networked with Bluetooth and Internet connections. This obviously leaves cars open to new types of attacks as demonstrated by [Charlie Miller] and [Chris Valasek]’s hack that uncovered vulnerabilities in Jeeps and led to a U.S. recall of 1.4 million cars.

BlackBerry seem to be hedging their bets on becoming the Kingpin of vehicle anti-virus. But do our cars really belong on the Internet in the first place?

Solar Powered Camper Is A Magic Bus Indeed

May 17, 2017 by 36 Comments

There’s no doubt that Volkswagen’s offerings in the 1960s and early 1970s were the hippie cars of choice, with the most desirable models being from the Type 2 line, better known as the Microbus. And what could be even hippier than
converting a 1973 VW Microbus into a solar-electric camper?

For [Brett Belan] and his wife [Kira], their electric vehicle is about quality time with the family. And they’ll have plenty of time, given that it doesn’t exactly ooze performance like a Tesla. Then again, a Tesla would have a hard time toting the enormous 1.2 kW PV panel on its roof like this camper can, and would look even sillier with the panel jacked up to maximize its solar aspect. [Brett] uses the space created by the angled array to create extra sleeping space like the Westfalia, a pop-top VW camper. The PV array charges a bank of twelve lead-acid golf cart batteries which power an AC motor through a 500-amp controller. Interior amenities include a kitchenette, dining table, and seating that cost as much as the van before conversion. There’s no word on interior heat, but honestly, that never was VW’s strong suit — we speak from bitter, frostbitten experience here.

As for being practical transportation, that just depends on your definition of practical. Everything about this build says “labor of love,” and it’s hard to fault that. It’s also hard to fault [Brett]’s choice of platform; after all, vintage VWs are the most hackable of cars.

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Reverse Engineering An Ultrasonic Car Parking Sensor

May 16, 2017 by 18 Comments

It has become a common sight, a must-have feature on modern cars, a row of ultrasonic sensors embedded in the rear bumper. They are part of a parking sensor, an aid to drivers for whom depth perception is something of a lottery.

[Haris Andrianakis] replaced the sensor system on hs car, and was intrigued enough by the one he removed to reverse engineer it and probe its workings. He found a surprisingly straightforward set of components, an Atmel processor with a selection of CMOS logic chips and an op-amp. The piezoelectric sensors double as both speaker and microphone, with a CMOS analogue switch alternating between passing a burst of ultrasound and then receiving a response. There is a watchdog circuit that is sent a tone by the processor, and triggers a reset in the event that the processor crashes and the tone stops. Unfortunately he doesn’t delve into the receiver front-end circuitry, but we can see from the pictures that it involves an LC filter with a set of variable inductors.

If you have ever been intrigued by these systems, this write-up makes for an interesting read. If you’d like more ultrasonic radar goodness, have a look at this sweeping display project, or this ultrasonic virtual touch screen.

Car Security Experts Dump All Their Research And Vulnerabilities Online

May 14, 2017 by 81 Comments

[Charlie Miller] and [Chris Valasek] Have just released all their research including (but not limited to) how they hacked a Jeep Cherokee after the newest firmware updates which were rolled out in response to their Hacking of a Cherokee in 2015.

FCA, the Corp that owns Jeep had to recall 1.5 million Cherokee’s to deal with the 2015 hack, issuing them all a patch. However the patch wasn’t all that great it actually gave [Charlie] and [Chris] even more control of the car than they had in the first place once exploited. The papers they have released are a goldmine for anyone interesting in hacking or even just messing around with cars via the CAN bus. It goes on to chronicle multiple hacks, from changing the speedometer to remotely controlling a car through CAN message injection. And this release isn’t limited to Jeep. The research covers a massive amount of topics on a number of different cars and models so if you want to do play around with your car this is the car hacking bible you have been waiting for.

Jeep are not too happy about the whole situation. The dump includes a lot of background for vehicles by multiple manufactureres. But the 2015 hack was prominent and has step by step instructions. Their statement on the matter is below.

Under no circumstances does FCA condone or believe it’s appropriate to disclose ‘how-to information’ that would potentially encourage, or help enable hackers to gain unauthorized and unlawful access to vehicle systems.

We anticipate seeing an increasing number of security related releases and buzz as summer approaches. It is, after all, Network Security Theatre season.

Better Car Audio With Guitar Effects

May 13, 2017 by 18 Comments

Automotive sound is a huge deal; for many people, it’s the place to listen to music. Back in the 80s, you were lucky to get anything more than two door speakers in the front of the car. Fast forward to today, and you can expect a 10-speaker system in an up-spec’d family sedan.

[Josh] has a car, and wanted to improve the sound. In particular, the aim was to improve the sense of space felt when listening. A car is a relatively small space, and the driver sits in close proximity to the front speakers, so it’s difficult to get a good soundstage.

[Josh]’s approach was to create a “surround” effect for the car stereo, by feeding a left/right difference signal to the rear speakers. This was achieved by the use of a series of op-amps that buffer and then generate a mono signal that represents the difference between the left and right channel. For optimum results, [Josh] wanted to delay the signal being sent to the rear speakers, with a longer delay making the soundstage feel bigger, as if reflections are coming from farther away in a bigger room. To do this, [Josh] simply hooked up the signal to a Boss DD-3 Digital Delay guitar pedal – an off-the-shelf solution to an otherwise sticky problem. The DD-3 gives [Josh] a variable delay time with reasonably high fidelity, so it’s a perfect way to get the project done quickly.

The final piece of the puzzle is a filter. The difference signal doesn’t actually sound all that pleasant to the ears by itself, especially when it comes to transient high-pitched sounds like cymbals, so a lowpass filter is implemented to cut these higher frequencies down.

[Josh] made everything adjustable, from the filter to the delay, so it’s simple to dial things in until they’re just right, rather than relying on calculation or guesswork. The general idea is to feed the difference signal into the rear speakers at a low enough volume and with a subtle delay so that it adds to a general feeling of being in a larger room with the sound coming from all around, as opposed to listening to very loud point sources of audio.

It’s a cool project that we imagine would be very satisfying to dial in and enjoy on the road. What’s more, it’s a fairly straightforward build if you want to experiment with it yourself on your own car. Perhaps your problem is that you need an auxiliary input to your head unit, though – in that case, check out this Subaru project.