Pawly @ OCE Discovery 2015

On April 27 – 28, 2015, Pawly was excited to participate in the 10th edition of the Ontario Centres of Excellence’s Discovery trade show and conference. The event plays host to key players from industry, academia, government, the investment community as well as entrepreneurs and students to pursue collaboration opportunities. Renowned keynote speakers and panels ignite discussion, knowledge-sharing and new perspectives.

Discovery was hosted at the Metro Toronto Convention Centre in Toronto. Over the two days, more than 450 exhibitors and 3000 attendees thronged the conference.

We were thrilled to witness some great new thought provoking ideas and start-up concepts just like us at the event. On the first day we bumped into teaBOT, a retail platform for customized tea through technology. Imagine a variety of fresh loose tea leaves transforming into fresh hot tea at the press of a button. We made our custom blend, and got lost in savouring the exotic and authentic taste!

teaBot's booth

As well, we tried a cool helicopter simulator, exhibited by ACE.  The simulator had a total of six screens, and was so real that we were so scared to crash!

ACE's booth

And on the closing day of the conference, we had eaten our first ever 3-D printed cookies! Thanks to Structur3D. While we can’t say they were the best cookies we’ve tasted, they were definitely the most unique.

Structur3D's booth (Photo Credit: Ontario Centres of Excellence) 

Structur3D is the creator of the 3D printer add-on called Discov3ry, a universal paste extruder, giving creators around the globe the capability to print intricate and complex designs with a range of soft materials. 

Meanwhile, our snappy robot, Pawly, attracted scores of attendees, entrepreneurs and investors to the Pawly booth, keeping us on our toes throughout the two days!

Pawly's booth

Over the two days, we also had the chance to hear from world-renowned thought leaders, senior business leaders, and serial entrepreneurs. On the first day, David Roberts, faculty member, Singularity University, delivered a jaw dropping talk on disruptive technologies. The second day saw senior business executives from Airbnb and Uber talk about their origins and future expansion strategies.

The two-day mega event concluded with Chad Hurley, co-founder of YouTube, speaking about his motivation behind YouTube, and offering advice to budding entrepreneurs. Who would have imagined that cat videos would have led to the creation of such multi-billion dollar company as Google. But then again, we love cat videos; it’s pretty much what we do at the office all day :) (check out this funny video here)

Chad Hurley in conversation with CBC’s Amanda Lang  (Photo Credit: Ontario Centres of Excellence)

Looking back, it was a great experience and we had a lot of fun meeting and talking to myriad of people with diverse backgrounds and interests. And yeah, we were so blown away by the amazing concepts and ideas exhibited at the event. A big shout to all the fellow exhibitors!

We head to the digifest next! Until then, take care and enjoy the warm weather!

Pawly at You're Next Career Expo @ MaRS

On January 30, 2015, Pawly attended Canada's largest startup career expo presented by You're Next Career Network. You're Next Career Network is a student run organization out of University of Toronto that provides students with career development assistance as well as corporate and startup career opportunities.

The event took place at MaRS Discovery District, one of Canada's largest innovation hubs that help create successful global businesses from Canada's science, technology and social innovation fields. Pawly is proud to be a community member of MaRS.

Photo credit: MaRS Discover District

Photo credit: YNCN

The expo featured over 70 startups and attracted over 2000 students from all over Ontario. We were happy to discover other great startups there. There was a virtual makeover app by Modiface. Like the name implies, the app modifies your face :). By using your smartphone device, you can try on that lipstick colour you always wanted, or that new hair colour that'll make you feel like Beyoncé. We tried it on, but are too embarrassed to show you our duck faces.

Modiface Booth (Photo credit: YNCN)

Another innovative startup, Onyx Motion is developing an app that uses your smartwatch to learn your movements, and coaches you to play like an experienced athlete. Their first app Swish, coaches you on basketball - from elbow positioning to the arch of your shot! Unfortunately, it won't help you grow taller or jump higher, so keep dreaming!

Swish by Onyx Motion

Back in our booth, we got to demo Pawly and drive it around the building. Pawly was able to navigate its way through the swarm of people with no human or pet or even the Tripod from War of the Worlds stepping on it.

Original Photo by CH33SER

Overall the event was a lot of fun! We had a great time speaking to many talented individuals and students with various educational backgrounds. It was quite motivating. We'll be looking forward to attending more of these events in the near future as our company continues to grow.

Shout out to YEDI who invited us to share their booth with them! YEDI is a charitable organization that provides business education and mentorship to entrepreneurs. As recent grads from their program, it was a great experience to attend the event together.

Pawly @ Schulich School of Business - YEDI Venture Fair

On January 19, 2015, Pawly was a part of YEDI's venture fair, which took place at Schulich Executive Education Centre at York University.
                                 


YEDI is a charitable organization that provides business education and mentorship to entrepreneurs from any sector or industry, to help build and accelerate successful organizations.

Our CEO, Mayer Elharar, took part in this amazing development program which enabled him to connect with other great entrepreneurs and discuss important strategic goals for the company.

Mayer Elharar

After the pitches, entrepreneurs got to showcase and demo their ventures at their booth. There were many interesting ventures that pitched and showcased their products. 

Pawly Booth

As an example, TapMango is a startup offering loyalty program platforms for SMEs already working with very happy customers. Another exciting startup, Complete Concussion Management, is changing the way concussions should be managed for amateur athletes and not just professional athletes. They have over 100 clinics serving across Canada. 

Tapmango

Complete Concussion Management 

As usual, Pawly could be seen rolling around the room minding its own business. We got to control Pawly with our iPad and encouraged others to try it out themselves.

Pawly in action

The crowd was a mixture of entrepreneurs, politicians, investors, business professionals, and the media who showed support and took interest in what we were doing. It was a great experience to be a part of a community that is being built to help foster and grow startups for the benefit of the economy. MP Mark Adler gave an inspirational speech about the time, when he just started out, when he was faced with lots of adversity. He never gave up and didn't stop believing in himself and his inspirations to eventually be where he is today. A great lesson for us all.

MP Mark Adler

How to Build a Robot

Prototyping Pawly - Mechanical Design

From the Top

So you want to make a robot? It is going to involve a few significant constraints and will likely require multiple design iterations. Here we go!

Sketch it Out

A basic design for Pawly came out of Startup Weekend. It was a simple 4 wheeled skid steer vehicle that is about 30cm long and 30cm wide. Most robots are essentially boxes with wheels and the original Pawly was no exception. Having a mostly rectangular shape maximizes interior volume to mount components like computers, batteries and pet treats.

Some of the ideas that form the basis of the original design include:

1. A four wheel vehicle fits with most people's conceptual design of how a mobile platform might work. People can associate it with a car.
2. Skid steer or 'tank drive' turning can be implemented easily and also fits with most people's conceptual model of how a tank turns. It may not be ideal for indoor operation or future robot navigation due to wheel slippage during turning but this is outweighed by the benefits
3. A rounded front provides a signifier of the front of the vehicle. It also provides a natural enclosure for a camera to tilt up and down while remaining protected from animals.
4. Rounded wheels prevent the vehicle from becoming stuck on its side.
5. A top-bottom symmetrical vehicle with wheel clearance on each side prevent the vehicle from becoming stuck upside down.
6. External lighting strips signify there is a robot in house with an active camera being remotely controlled

The original Pawly from Startup weekend Toronto didn't look exactly like the computer model, mostly due to time and materials constraints.

Flesh it Out

The next step was to build an actual prototype to begin proving the concept that having a mobile robot through which you can interact with your pet at home will work and have market value. This time we had about 2 months until we were due to present at the Launch conference in San Francisco.

Here is what we were thinking about the next prototype

• It should remain big enough not to be eaten by a dog
• Should drive over most indoor surfaces
• Should have a mounting surface to transport accessories
• Should have a working camera and tilt mechanism
• Should be manufacturable with a 3D printer and low cost off the shelf parts such as motors and batteries
• Should have considerations for assembly, maintenance
• Should have considerations for a design for high volume production in the future

With the sizing and payload requirements generally fixed, we could begin calculating the required motor power under various operating scenarios. We can do this by estimating rolling resistance on various surfaces and power and torque required for target inclines and accelerations and during turning. Fortunately, from our Engineering team's work at Clearpath Robotics on platforms such as the Husky UGV many of these parameters and models were readily available. More on these calculations in another post.

Driving much faster than 1 m/s through a remote camera would likely prove difficult for most users so that is where we set the target speed limit.

Just Move

The next step was determining the drive train configuration. We required that all 4 wheels be powered so our choices were 4 independent motors and motor controllers or 2 motors with power transmission between the wheels on each side. After comparing the power, torque and motor controller requirements under each scenario and doing a brief search of off the shelf motors that would meet those requirements and their costs, we decided to pursue a 2 motor configuration based on the premise that extra motors and controllers would significantly increase the cost. Given the requirement for low speed, high torque operation, DC gear-motors were our best bet as they are readily available from many Chinese suppliers at low cost. We found our first sets of gear motors on Ali-Express and Ebay.

Now we had to design a power transmission system to power both wheels. Some options included:

Method	Pros	Cons
Internal Belt Drive System	GT2 pulleys and belts would be readily available from 3D printer markets at low cost	Would be difficult to assemble and maintain
External Belt Drive (Tank Treads)	Pawly becomes a tank with treads	Friction goes up and more power is required for driving and turning. We didn't want Pawly to be a tank.
Internal gear drive	• Efficient mechanical power transfer • Gears available from hobby world, also easy to rapid prototype.	• Large use of internal space • Many moving parts and components required

Screws at Last

For the first prototype we chose the gear drive system based on the ease of prototyping. We ordered shafts, bearings, bushings, motors and wheel adapters from various vendors on Ali-Express and began 3D printing gears and other drive-train components shown below. M3 screws and nuts were used to set the gears on the drive shafts. This worked but required constant re-tightening and will likely not make up part of the final design. 2 bearings support each drive shaft between the yellow mounting brackets and the black vehicle wall providing a good deal of impact resistance.

Nice Body

The body of Pawly was designed to be 3D printed in sections that would fit into a Makerbot or Tinkerines Ditto+ printer and then attached together with Hex-Cap screws. To access the inside, one of the top panels can be removed with 2 hex cap screws. This also doubles as an accessory mounting panel where prototype treat dispensers can be bolted to the surface. All the 3D printed parts required to make a Pawly are shown in the following picture. A Tinkerines Ditto + produced high quality prints that fit together nicely. All the holes were tapped for M3 and M4 screw hardware and the first set of working prototypes were assembled into their finished working states.

Going Places

In the next posts in our series on Prototyping Pawly we will talk about the electrical design of the prototype system and how commands from a smart phone can make the platform move using the Robot Operating System. We will also talk about what changes we've made to our current Pawly Prototype V3 from the V2 system shown above. The new version uses an entirely different drive-train and we will explain why.

It looks like the dogs are happy so far.

Pawly @ HackerNest

On July 14, 2014, Pawly demoed at the HackerNest Kitchener-Waterloo July Tech Social, which took place at Clearpath Robotics.

HackerNest is an international nonprofit originating in Toronto that helps build tech communities around the world by nurturing local tech ecosystems with social events.

Clearpath Robotics is a robotics company based in Kitchener that builds autonomous robots to be used around the world and for a variety of tasks including land, sea, air and lab.

Pawly was able to interact with some of the Clearpath robots during the Tech Social. One of these was a Willow Garage PR2 robot, which is a research and development robot sold primarily to universities. The features of the Willow Garage PR2 robot include omnidirectional wheels, and 2 arms with grippers while using 2 LIDAR lasers, stereo cameras and the Microsoft Kinect. And yes, Pawly and PR2 became best of friends.

The coolest part at the event was when Pawly’s Robotics Engineer, Robbie Edwards, was able to hack an X-box game-pad controller to control our very own Pawly. Guests enjoyed interacting with Pawly at the event by using the game-pad controller to control its movements. Mmm…. What are your thoughts… would Pawly be cooler to control via a game-pad controller or via your smartphone?

Developers Kit

Hackers Delight

With the Pawly Dev Kit you get a programmable robot that allows you to focus on the problems you actually want to solve. The necessary plumbing has been expertly done, and now you can spend your valuable time on the fun stuff.

Features

• Connect to and control your Pawly remotely and securely without having to worry about difficult NAT, STUN servers, or UDP Hole Punching.
• Low latency live video streaming and image capture--locally for image processing, or over the internet.
• Versatile API for driving pawly around.
• Share your work with other Pawly, Raspberry Pi, or ROS users.

Your Solutions

Do you want your robot to:

• Respond to your voice? Use voice recognition capabilities to teach it tricks.
• Greet your friends? Use the facial recognition package to offer them a drink.
• Send you a picture when it detects motion? Use the motion guide to let you know when your dog wakes up.
• Be controlled with a joystick?  Add a joystick dongle to open USB port and you can drive it around outside like a remote control car--no internet connection required!

Technical Specifications

	Size	14 x 23 x 7 cm / 5.5 x 9 x 3 in
	Weight	4.0 kg / 8.8 lb
	Battery	Run Time: 3h Standby: 2 days Wireless charger
	WiFi Dongle	300Mbps, AP mode (hotspot) supported
	Available Power	5V 1Ah
	Extra Accessory	Open USB Port
	Extra Motor	Open Servo Output
	Local Video	HDMI Output (Dev kit only)
	SBC	Raspberry Pi
	OS Admin	Linux root access (Dev kit only)
	Control Software	Robot Operating System
	Camera Software	MAL and picamera API’s
	Driving Software	Standard ROS and Pawly API’s

How To Get a Dev Kit

To get your Dev Kit just buy a Pawly from our Indiegogo campaign here and include “Make it a Dev Kit” in the comment. Some hardware assembly will be required--just the way you wanted it! :)