Michael Remley
The Bridge of Doom accross dangerous lava.

The Bridge of Doom, 2020

The Bridge of Doom with a dangerous landscape I created for students.

 A panorama of sunset over the Great Salt Lake with strong orange and red hues.

Sunset on Antelope Island, 2017

by Michael Remley. All Rights Reserved

 The Wanderer, a small, furry robot with computer vision to greet people.

The Wanderer, 2019

The Wanderer, a small, furry robot with computer vision to greet people.

 An image of children playing a game with a wall of yellow hexagons about 30 centimeters in size.

Play Experience, 2018

My project team designed a bee-themed play experience for fourth graders.
by Michael Remley. All Rights Reserved

 A computer generated model of a beetle-shaped toy assembled from laser cut hard board. One side is transparent, showing the rib structure within.

Click Beetle-Inspired Hopper, 2018

A bio-inspired hopping toy with a focus on carrying a passenger safely.

 An image of a circuit board about 25 millimeters square.

Human Motion V2, 2018

An image of one of the boards I designed, assembled, and programmed for human motion data collection
by Michael Remley. All Rights Reserved

Part of the Human Motion Project

 A large research balloon floating above me while I hold the tether.

Air Quality Measurement with HARBOR, 2017

I am part of the HARBOR group at Weber State University, and this picture is from some ground-level air measurements we did on pollution during an inversion in Ogden, Utah

Part of the Minibeacon Project

 A gait phase diagram showing one leg moving through a complete step.

Gait Diagram, 2017

I have been studying human gait since 2016, and I created this diagram for a presentation at the international science fair. The audience members had varying degrees of familiarity with the subject, so diagrams like this were useful in communications.

Part of the Human Motion Project

 An animation showing a boat hull cross section in water with arrows showing the relative position of the buoyant force and the force of gravity for various heel angles.

Quantitatively Engineering Boats, 2019

In the class Quantitative Engineering Analysis, I designed a boat and calculated how it would float before building anything. This illustration shows the relative positions of buoyant force and force of gravity as a boat rolls.

 A group of people holding recently recovered high altitude balloon research equipment.

Balloon Recovery, 2017

After launching a balloon and tracking the payload to a landing area, we use the Minibeacon to precisely locate the payload. I am third from the right, and the Minibeacon is the white box in the frame I am holding.

Part of the Minibeacon Project

 An image showing the potential field of the obstacles and the target point, resembles a bowl with the target at the bottom and spikes shooting upward as obstacles.

The Gauntlet, 2019

In order to get a small vaccuum robot from a starting point to the red circle, I abstract the obstacles as raised bumps and instruct it to only go downhill towards the target point.

Part of the NEATO Robotics Project

 An image of the game with white platforms, black background, and a red square avatar.

Red Cube Platformer, 2019

A simple game with a custom physics/collision engine made by Skye Ozga and I.

Part of the Red Cube Platfomer Project