As seen in the videos below, Zeus is a metallic humanoid robot capable of moving its head and arms around, featuring a pair of hand grippers that should be quite useful when the time comes. For now, creator Luis appears to be focusing on its vocal skills, with plans to eventually teach it how to walk.
The robot can engage in conversation with its companion, whether it’s answering questions like “What’s your name?” with“My name is Zeus,” or “What’s your favorite movie?” with “I wasn’t that impressed with the special effects, also the plot was not deep.” Zeus even lets Luis know when he “has no idea what to say.”
Zeus’ communication and movement are accomplished through a variety of hardware, including an Arduino Mega and an AAEON UP board, as well as an Intel RealSense Camera SR300 for vision. Luis is also using CMUSphinx for voice recognition, eSpeak for text-to-speech and AIML chatbot for interactive responses.
Perhaps we’ll see this ~1/2-sized humanoid traipsing around on its own in the future, though hopefully its comment about “taking over the world” was just a joke!
In the early 1200s, Fibonacci introduced a series of numbers that now bear his name, starting with 0, then 1, and continuing on as the sum of the two preceding numbers. This gives values of 0, 1, 1, 2, 3, 5, 8, and so on, and after being prompted by a friend, “TecnoProfesor” decided to turn this numerical pattern into a clock.
The concept here is that instead of using the conventional 1-12 to display the time, this device uses blocks corresponding to Fibonacci numbers 1-5, with circular icons adding increments of 12 for minute and second values.
It’s an interesting concept, somewhat akin to the world of binary or even word clocks. The build consists of an Arduino Mega and a DS3231 RTC module for control, a wood and methacrylate housing, and a number of programmable RGB LEDs to indicate numbers.
If Elon Musk was to design a soapbox car, the prototype might look something like this by David Traum.
Traum’s project is powered by a 500W motor which is fed by a pair of 12V batteries and a 40 W solar cell, allowing it to attain a top speed of 35 km/h and a range of 10 to 15km. Although that might not sound like a huge number, it looks pretty fast at the end of the video below!
But that’s not all. The vehicle features a rather unique control system, with front wheel steering actuated by a stepper and cable assembly. An Arduino Mega is the brains of the operation, while user input is via a small touchscreen, a joystick, and even a steering wheel (equipped with an Uno, a 9V battery, radio module, and gyro sensor) that can work wirelessly as needed—perhaps to park remotely, or simply as a gigantic RC car
Alarm clocks of old—and certainly many of those today—require several button pushes to set things up properly. Maker Michael Wessel, however, decided to implement his own take on a more intuitive clock, creating a device that features three separate eight-digit seven-segment LED panels. Eight buttons allow for direct manipulation of each of the digits, with their own dedicated LEDs.
The info on display includes time and date, as well as temperature, and it can even show how many days, hours, or minutes have passed since a special pre-programmed day. Up to seven audible alarms are available, which can be silenced by a loud noise (e.g. clapping your hands) via a sound sensor.
The clock is controlled via an Arduino Mega, along with an RTC module to keep things accurate.
I remember I always had to set all digital clocks for my grandparents in the ’80s — these clocks and watches always required some complicated button juggling! So, here it is: a DIY LED alarm clock that my grandparents would have been able to set and use without my help!
An Arduino-based LED clock with 7 individual alarms, highly intuitive user interface, temperature display, and display of days / hours / minutes passed since a special date, e.g., your birthday. An active / ringing alarm can be disabled by making a loud noise, e.g., by clapping your hands. Timer-based PWM sound output for alarm melodies.
The Arduino’s EEPROM is being used to store the alarms of course, and the DS3231 RTC is battery backed up, so it survives a temporary power outage and you won’t be late for work the next morning.
This was put together rather quickly, thanks to off the shelf components, Velcro and existing Arduino libraries for them! The clock can be built for about $30 – 40.
Need a wave generator to test out your latest boat, barge, or submarine design, but can’t quite afford one? If so, then you might consider Subham Bhatt’s DIY tank that he was able to construct for around $1,200 USD.
Bhatt’s device features a pair of stepper motors and lead screws that push a stainless steel paddle through the water, producing waves formed to his precise specifications. An Arduino Mega is used for control, along with a single stepper driver to power both motors.
User interface is provided through the Arduino IDE’s serial interface, set up to take commands via a simple text-based menu system.
Light painting is an art form where dark areas are selectively lit to form interesting effects. While normally a manual operation, Josh Sheldon has come up with a rig to automate and enhance the process. The results are nothing short of spectacular, producing not static images, but astonishing animated light displays.
His device resembles a 3D printer made out of aluminum extrusion. X,Y, and Z axes are controlled by a series of stepper motors, but it uses a point of controlled light instead of melted plastic to form shapes.
Light animations are set up in Blender, and a hardware and software toolchain including Processing, an Arduino Mega, and a Dragonframe module are implemented for control.
Check out the whole story in the video below, or see code/build documentation are available on GitHub.