Chavín Rover

Mechatronic Design | Robotics for Archaeology

A remotely controlled rover to explore small underground tunnels in a 3000 year old temple complex in the Peruvian Andes.


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Mechanical.

| 4-wheel drive

| Servo camera control

Electrical.

| Raspberry Pi Zero

| Arduino Leonardo

| Front and rear cameras

| Laser rangefinder

| LED array

| Arduino joystick

| Ethernet tether

Timeline.

| 2 months prep (while in school full time)

| 8 weeks on site

Context.

Daniel Chan and I designed this robot from scratch after receiving a grant from the Stanford School of Engineering in 2018. We partnered with John Rick, Stanford faculty in Archaeology, to use robotics to explore small tunnels in an ancient temple complex in Chavín de Huantar, a UNESCO world heritage site. On a budget of $1500, we designed and then 3D printed, laser cut, and purchased parts for the robot over a span of two months while attending school full time. We traveled to rural Peru, and – with extremely limited access to tools and internet – prototyped, iterated, and deployed the robot.

Design.

The Chavín temple complex includes underground tunnels as small as 20cm across and more than 70m long. While in Chavín, we continued to iterate on our robot design, adding servo controlled cameras and light arrays while shrinking the wheelbase. Ultimately the robot presented a profile of 20cm wide by 15cm tall, had a range of 100m, and was controlled remotely using a Raspberry Pi.

Outcome.

Our project contributed to general site knowledge of the underground tunnel system and provided an exciting topic for Peruvian and international media. Our most exciting success, however, consisted of finding a 3000-year-old, unbroken ceramic bottle (see photos below).

Stanford School of Engineering video highlighting our work in Chavín.

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