Pokemon Go inherits a certain vulnerability to GPS location spoofing from it’s predecessor Ingress, but also the progress that has been made in spoof detection. Since taking advantage of a game’s underlying mechanisms is part of the winner’s game, why not hook up your smartphone to Xcode and see if you can beat Niantic this time? [Dave Conroy] shows you how to play back waypoints and activate your Pokemon Go warp drive.
Pokemon Go has done a great service to the world health. Or would’ve done, if we wouldn’t hack it all the time. The game suggests, you breed Pokemon eggs by walking them around, but [DannyMcMurray] has a better idea: Strapping your smartphone to the propeller of a fan and taking them for spin that way.
The launch of Pokemon Go has unleashed the franchise upon the world once again but this time it’s encouraging users to get active and socialize in the great outdoors. To show off their dedication to the cause, [Npoole] 3D printed a Pokédex external battery and case to combat the game’s already legendary drain on their Galaxy S4’s resources.
Mimicking the first-generation Kanto design, [Npoole] 3D printed it in red ABS and added a small circuit with a red, yellow and green LED to complete the effect. Inside, a 18650 lithium cell provides the much-needed backup power via a micro B plug and is boosted to 5V with a LiPo charger/booster board. Despite a switch on the circuit, the battery slowly drains so that’s something to be corrected in a future version.
As you can see, there is still some room left over in the external bat–I mean–Pokédex, and [Npoole] intends to add another battery and a cooling fan to further improve the design. The result is a little bulky, but for new and diehard fans alike, a working Pokédex definitely worth it.
While that’s printing, if you’re looking to hack your way to the perfect Poké-ball throw, try out this lo-tech addition to your Pokémon trainer kit.
We have our eyes on the horizon for an epic GPS spoof to catch some legendaries in Pokemon Go, but until that hack shows up, we really like [Brian McEvoy’s] hack for the perfect Poke Ball throw.
[Brian] started out thinking that a mechanical build would be the best way (we know he’s got the servo motors and controllers to drive them from this tea steeping robot he built last year). But the mechanics of that are just too complicated for what you get in return (less wasted Poke Balls).
He came to the realization that your finger is the best machine, it just needs some augmentation. Most of his Poke Ball throws missed to one side or another, so he turned to papercraft to guide his way. He made a tray from some paperboard packaging, then used two small stacks of Post-it notes to create a channel where your finger slides. Simply hold the phone and the paper with one hand, and use your other to follow the paper channel to a successful capture. The paperboard doesn’t affect the screen’s ability to sense your finger.
This is one we’re definitely going to try out. But visions of hardware hacks for the game that has rocked the world still dance through our heads. Are you working on anything? If so, we’d love to hear about (so send in a tip!). Those still in the idea phase can ring in below. We are weighing the feasibility of doing a man-in-the-middle between a phone and its GPS chip to spoof location. That feels like a pretty tall mountain to climb.
Several years ago, Iran used GPS spoofing to ‘land’ an RQ-170 Sentinel drone operated by the US military. Why is this interesting now? Because this week Pokemon GO was released. It’s a mobile, augmented-reality game that forces you to walk around your neighborhood to catch Pokemon. Apparently you can capture a Mewtwo if you make it to Area 51, Groudon near any volcano, and Deoxys is aboard the International Space Station. In the next week or two, someone will figure out how to spoof the GPS location on a phone to catch rare and legendary Pokemon. This will happen.
The FR4 Machine Shield is a CNC kit made from a PCB. Yes, the entire machine can be constructed using a panel from a board house. It’s now a Kickstarter. Like other desktop PCB milling machines, the FR4 uses hobby brushless motors (think quadcopters) for the spindle, and features tab and slot construction. It’s a pretty neat little tool we checked out a little while ago
There’s a lot going on during the first weekend in August. We’re going to DEF CON, I’m trying to rope a few writers into going to the Vintage Computer Festival West, and Electromagnetic Field Camp is happening in the UK. Hackaday will have a contingent at EMF Camp, so be sure to tell us if you’re going and we’ll bring some stickers
If you ride a bicycle, you have a hand pump somewhere around. Those hand pumps get pretty tiring. Here’s a much better solution. It’s a pneumatic air pump. It will inflate your bike tire with the power of compressed air. But that’s not all… this device will also inflate basketballs, soccer balls, and footballs, all with a simple and easy to use air compressor.
The Hackaday logo was one of the first things on Thingiverse, but surprisingly there aren’t many jolly wrenchers plastered onto 3D prints. To fix this glaring oversight by everyone, [Tom] whipped up the Hackaday logo in OpenSCAD.