20220115

 

BY THE BLADE - Signed Art Book & Portfolio by Dan Brereton

by Dan Brereton


Proposed Cover Design for BY THE BLADE , featuring rounded corners and foil stamping on the title.

BY THE BLADE is a 124-page hardcover celebrating swordslingers and she-wolves, ronin and reavers, masters of blade and battle. My tribute to Sword & Sorcery, Samurai Chambara, Weird Tales and Heroic Fantasy. 

 Herein you'll uncover a host of warriorkind, knights and rogues,  featuring many new pieces from the last two years, including work I'll be adding right up to the minute we go to press in the Spring.


SIGNATURES FOR ALL

 Every physical copy of BY THE BLADE will come with a SIGNED illustrated book plate.

Signed Book Plate accompanies every copy of BY THE BLADE

A DIGTAL PDF Download link of BY THE BLADE will be included with all physical rewards! 

A preview of several images from the book’s 124-page interior:

11.5 x 14.5” Illustrated envelope

 SWORDPLAY

Accompanying the new book is SWORDPLAY,  a classic-style art portfolio consisting of 8 beautifully printed plates, a signed & numbered cover sheet, inside a full-color illustrated envelope. 


Example of 8x10” Watercolor Reward

ART REWARDS


The fearless and fleet of foot have a chance to score an Art Reward or two (or three!) among the Reward Tiers offered: 

6x8” SKETCH

6x8” Sketch Examples

The  Book Sketch is available for 3 Reward Tiers.


8x10” WATERCOLOR 

 For this reward only, Backers may request character/theme ideas within the theme and Dan’s universe of characters. (artist reserves final decision) 

Watercolor examples from 2021 Autumnkind Campaign

REMARQUE

 Portfolio Remarque Sketches are available for the Excalibur Package.  They’re drawn on a special blank 11x14” cover sheet included in the portfolio set.   

Portfolio Remarque examples from last year’s Autumnkind Portfolio

Whether by skill, braveey or cunning, lend aid to the campaign and claim what is yours!

THE REWARD TIERS

 STRETCH GOALS ??

A successful campaign will unlock Stretch Goals we’ll announce as each new plateau is surpassed. Unlocked goals may include a 6x9” mini-print and a 9th portfolio plate.  


To the victor, the spoils - your bold pledge entitles you to sieze one or both of the previous hardcovers you may have missed:  



 ABOUT THE ARTIST

 Storytelling has always been my passion. I may not have learned the art of Fencing, or vanquished all the bullies of the playground, but after learning the word "illustrator" (from the pages of the first children's book I ever checked out from the library) my path was set early on. Comics, Fantasy Illustration and Sword & Sorcery all informed the journey, fueling the creation of worlds for the better part of 50 years. Thank you for taking the journey along with me to make this project a reality.

-Dan Brereton

Success!

Error

Notice

 

BY THE BLADE - Signed Art Book & Portfolio by Dan Brereton

by Dan Brereton


Proposed Cover Design for BY THE BLADE , featuring rounded corners and foil stamping on the title.

BY THE BLADE is a 124-page hardcover celebrating swordslingers and she-wolves, ronin and reavers, masters of blade and battle. My tribute to Sword & Sorcery, Samurai Chambara, Weird Tales and Heroic Fantasy. 

 Herein you'll uncover a host of warriorkind, knights and rogues,  featuring many new pieces from the last two years, including work I'll be adding right up to the minute we go to press in the Spring.


SIGNATURES FOR ALL

 Every physical copy of BY THE BLADE will come with a SIGNED illustrated book plate.

Signed Book Plate accompanies every copy of BY THE BLADE

A DIGTAL PDF Download link of BY THE BLADE will be included with all physical rewards! 

A preview of several images from the book’s 124-page interior:

11.5 x 14.5” Illustrated envelope

 SWORDPLAY

Accompanying the new book is SWORDPLAY,  a classic-style art portfolio consisting of 8 beautifully printed plates, a signed & numbered cover sheet, inside a full-color illustrated envelope. 


Example of 8x10” Watercolor Reward

ART REWARDS


The fearless and fleet of foot have a chance to score an Art Reward or two (or three!) among the Reward Tiers offered: 

6x8” SKETCH

6x8” Sketch Examples

The  Book Sketch is available for 3 Reward Tiers.


8x10” WATERCOLOR 

 For this reward only, Backers may request character/theme ideas within the theme and Dan’s universe of characters. (artist reserves final decision) 

Watercolor examples from 2021 Autumnkind Campaign

REMARQUE

 Portfolio Remarque Sketches are available for the Excalibur Package.  They’re drawn on a special blank 11x14” cover sheet included in the portfolio set.   

Portfolio Remarque examples from last year’s Autumnkind Portfolio

Whether by skill, braveey or cunning, lend aid to the campaign and claim what is yours!

THE REWARD TIERS

 STRETCH GOALS ??

A successful campaign will unlock Stretch Goals we’ll announce as each new plateau is surpassed. Unlocked goals may include a 6x9” mini-print and a 9th portfolio plate.  


To the victor, the spoils - your bold pledge entitles you to sieze one or both of the previous hardcovers you may have missed:  



 ABOUT THE ARTIST

 Storytelling has always been my passion. I may not have learned the art of Fencing, or vanquished all the bullies of the playground, but after learning the word "illustrator" (from the pages of the first children's book I ever checked out from the library) my path was set early on. Comics, Fantasy Illustration and Sword & Sorcery all informed the journey, fueling the creation of worlds for the better part of 50 years. Thank you for taking the journey along with me to make this project a reality.

-Dan Brereton

Success!

Error

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Fleye - Your Personal Flying Robot

by Fleye

The classic drone design has many shortcomings; Fleye has gone back to the drawing board to imagine the future of autonomous flying robots. The resulting product is safer, more robust and easier to use.

 What would a drone from the future look like? At Fleye, we dream of small, autonomous, flying machines floating around us and helping us in our daily lives.  The kind of flying robot we were dreaming about as children when reading Sci-Fi comic books.

Not satisfied with current drone design, we went back to the drawing board and have invented a spherical flying machine that is safe, simple to use and autonomous.

We've also made Fleye open and programmable. Its API and SDK make it a great development platform for anyone willing to explore the future of flying robotics and its potential applications.

World Safest Drone

The main innovation of Fleye is its unique spherical design, where all moving parts are fully shielded. This means that you can hold, touch, push, and bump into Fleye without any risks of injuring yourself and others. It also means that Fleye will be more robust when bumping into something.

Fleye unique design makes it safe for people and robust to contacts
Fleye unique design makes it safe for people and robust to contacts

 Simple and fun to use

Fleye can be controlled using our smartphone application (iOS/Android support). You don't need piloting skills, just select a flying camera mode (selfie, panorama, virtual tripod, etc.), watch the live video stream and focus on capturing great photos and videos. You prefer to be in manual control? Then use our virtual gamepad or hook a bluetooth gamepad to your smartphone.

Smart and Autonomous 

Fleye has a powerful on-board computer, similar to the latest smartphones. It is a dual-core ARM A9, with hardware accelerated video encoding, two GPUs, 512MB of RAM and it runs Linux. It also supports the popular Computer Vision library OpenCV. This means that Fleye can be programmed to execute mission autonomously, reacting to what it sees in its environment.

Fleye can be programmed to perform computer vision tasks
Fleye can be programmed to perform computer vision tasks

No piloting skills required ! Fleye is really  easy to use and control, using just a smartphone (iOS/android supported). Thanks to its powerful on-board computer, Fleye is capable of executing autonomous missions for you:

  • Selfie: backs up to a given distance, and captures a video while flying smoothly back towards you.
  • Panorama: goes to a given altitude, and rotates on itself to capture a 360° panorama.
  • Hover: hovers in place with 10cm precision (when in range of sensors) so you can focus simply on altitude and viewing angle.
  • Manual: it is of course possible to fly manually, either with the virtual touch-gamepad or a bluetooth game controller. You can also add your own RC receiver to Fleye.

Since Fleye is an open platform, we welcome developers creating other applications to support specific use cases: planning a cinematic path, playing a game, tracking tags, etc. You will be able to discover and download these new application from our marketplace.

Fleye is more than a drone. Thanks to its on-board computer, and two open APIs, it is a real flying robot, that can be programmed to perform fully autonomous tasks.

Programmable flying robot

A machine becomes a robot when it is capable of observing its environment and taking autonomous decision based on what it sees. This is exactly what you can do with Fleye. 

You can write on-board application that leverage the camera feed, perform computer vision tasks and control the drone based on the content of the image. Fleye runs Linux and support OpenCV, a popular computer vision library. Complex tasks can be accelerated thanks to a GPU supporting OpenGL and OpenCL.

Runing OpenCV face-detection algorithm on the camera feed
Runing OpenCV face-detection algorithm on the camera feed

Remote API and SDKs

Fleye can be controlled remotely through its WiFi connection using a JSON-over-UDP API. This means that any device capable of sending messages to Fleye can act as a controller: a smartphone, but also a laptop computer or other connected objects.

Our API hasn't reached version 1.0 yet and is in active development. We count on our backers to help us improve it, providing feedback to better suit their needs. In addition to the open API, we do plan to provide various SDKs to make it easy to work with Fleye.

  • Android SDK
  • iOS SDK 
  • Nodejs and/or Python SDK 

On-board application development

Fleye is a Linux machine (Yocto based). You can access it over SSH and deploy your own applications directly on Fleye. This means that Fleye can be fully autonomous, performing computer vision on the main camera feed, reacting to sensor measurements and taking actions based on its environment.

A low-level API is provided to connect your application to the auto-pilot, instructing the robot to take-off, move, go to a location, land, etc. The video pipeline is managed by GStreamer and you can easily integrate your custom OpenCV plugins within.

Fleye Power Edition

The standard edition of Fleye comes with a dual-core computer and 512MB of RAM. It is more than enough to use the smartphone application and develop some simple programs. For those who really want to maximize power, we offer a special Developer Edition reward that comes with a Quad-Core computer and 1GB of RAM.

We haven't developed Fleye with one particular use-case in mind. Instead, we have made it a very versatile and open platform, to enable developers and entrepreneurs to explore new use cases, using a drone that is safe for people and its environment. Yet, here are the five use cases we believe Fleye could be the best for.

  • Take awesome photos and videos: Fleye is especially well suited for indoor photo and video, close to people. Sports arena, concerts halls, architectural , courtyards, etc.
  • Have fun piloting Fleye: Fleye is a one-of-a-kind flying machine, that is a lot of fun to pilot. 
  • Develop drone applications: Fleye is a platform on which you can build useful drone applications, supporting new business cases, such as: indoor inspection, surveillance, cartography, data collection, games, etc.
  • Marketing & Events: You can add branding to Fleye body shell, and use it to woaw the audience at your next event.
  • Education and Research: Need a safe drone to teach about flying robotics and play with robots in the lab? Fleye is ready to fly and a great platform for education as well as research on drones and control systems.

Fleye is a completely new take on the drone design. It is based on the "ducted fan UAV" concept, used in larger industrial/defense drones. The challenge was to shrink this technology and wrap it inside a protective shell. This work is the result of 18 months of research and development, and is now being protected by a patent.

We have been actively documenting our progress on our blog, and posting numerous videos, as well as doing demonstrations in various public events. We invite you to explore our website and social media accounts if you want to learn more.

General

  • Size: a sphere of Ø23cm (Ø 9'')
  • Total weight: 450g (16oz)

Flight

  • Generic 3S 1500mAh LiPo battery with XT60 connector
  • 10 minutes flight time
  • +/-10cm (3'') hovering precision
  • 15km/h (10mp/h) maximum speed
  • 8km/h (5 mp/h) wind tolerance

On-board sensors

  • 3-axis accelero, gyro and magnetometer
  • Pressure based altimeter
  • Sonar - Measure ground distance up to 3 meters (10')
  • GPS
  • Bottom camera for optical flow tracking

On-board computer

  • Dual or Quad-core ARM A9 800Mhz CPU3
  • Hardware video encoding - 1080p 30fps
  • GPU supporting OpenGL and OpenCL
  • 512 or 1024MB RAM
  • Yocto Linux
  • USB and serial extension port
  • WiFi (100m range)
  • micro SD-card slot

Camera

  • 5mpx Omnivision 5640 sensor
  • 160° FOV lens
  • 1080p 30fps video
  • 720p H264 RTSP low-latency preview
  • 1080p MP4 stored on SD card

Fleye was founded by Laurent and Dimitri, two engineers with a passion for robotics and flying machines. Both have 15 years of experience in their respective domain ranging from aeronautics, control systems to software development.

Next to them, they have brought together a team of freelancers and experts to help on tasks such as industrial design, electronics, embedded and mobile development.

Fleye is financed by The Faktory, a private Tech Startup Accelerator and Seed Investment Fund, and been awarded public subsidies.

The following is our current project timeline. We know that building a hardware product is hard (see Risks below) and that we may face unforeseen events that are going to delay us. Our pledge to you is to always remain transparent on our status and potential delays, informing you with at least one update per month on Kickstarter.

We have now reached the stage of a complete functional prototype. We have a great flying platform, an on-board computer, a full-hd camera module, and a first version of the mobile application with live streaming video. 

The next step is to move to mass production, being capable of producing many units, with all the same level of quality. This requires important investment, to create molds, prepare assembly and test bench, and secure components which usually have large MOQ (Minimum Order Quantities). The pre-orders secured here will help us go through this first stage, but that's not all. 

By pledging on kickstarter, you are showing us that you share our vision and enthousiasm for this flying robot. You will participate in the development of this product, give your feedback and suggestions on this version and, for the most daring ones, develop applications leveraging our APIs and SDK.

We invite you to take-off with us as cabin crew for this fantastic journey, building the future of flying robots !

Thanks,

Laurent & Dimitri

Success!

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Fleye - Your Personal Flying Robot

by Fleye


Details

 

Risks & challenges

 

FAQ

The classic drone design has many shortcomings; Fleye has gone back to the drawing board to imagine the future of autonomous flying robots. The resulting product is safer, more robust and easier to use.




 What would a drone from the future look like? At Fleye, we dream of small, autonomous, flying machines floating around us and helping us in our daily lives. The kind of flying robot we were dreaming about as children when reading Sci-Fi comic books.


Not satisfied with current drone design, we went back to the drawing board and have invented a spherical flying machine that is safe, simple to use and autonomous.


We've also made Fleye open and programmable. Its API and SDK make it a great development platform for anyone willing to explore the future of flying robotics and its potential applications.



World Safest Drone

The main innovation of Fleye is its unique spherical design, where all moving parts are fully shielded. This means that you can hold, touch, push, and bump into Fleye without any risks of injuring yourself and others. It also means that Fleye will be more robust when bumping into something.


Fleye unique design makes it safe for people and robust to contacts

Fleye unique design makes it safe for people and robust to contacts

 Simple and fun to use

Fleye can be controlled using our smartphone application (iOS/Android support). You don't need piloting skills, just select a flying camera mode (selfie, panorama, virtual tripod, etc.), watch the live video stream and focus on capturing great photos and videos. You prefer to be in manual control? Then use our virtual gamepad or hook a bluetooth gamepad to your smartphone.


Smart and Autonomous 

Fleye has a powerful on-board computer, similar to the latest smartphones. It is a dual-core ARM A9, with hardware accelerated video encoding, two GPUs, 512MB of RAM and it runs Linux. It also supports the popular Computer Vision library OpenCV. This means that Fleye can be programmed to execute mission autonomously, reacting to what it sees in its environment.


Fleye can be programmed to perform computer vision tasks

Fleye can be programmed to perform computer vision tasks


No piloting skills required ! Fleye is really easy to use and control, using just a smartphone (iOS/android supported). Thanks to its powerful on-board computer, Fleye is capable of executing autonomous missions for you:


Selfie: backs up to a given distance, and captures a video while flying smoothly back towards you.

Panorama: goes to a given altitude, and rotates on itself to capture a 360° panorama.

Hover: hovers in place with 10cm precision (when in range of sensors) so you can focus simply on altitude and viewing angle.

Manual: it is of course possible to fly manually, either with the virtual touch-gamepad or a bluetooth game controller. You can also add your own RC receiver to Fleye.

Since Fleye is an open platform, we welcome developers creating other applications to support specific use cases: planning a cinematic path, playing a game, tracking tags, etc. You will be able to discover and download these new application from our marketplace.




Fleye is more than a drone. Thanks to its on-board computer, and two open APIs, it is a real flying robot, that can be programmed to perform fully autonomous tasks.


Programmable flying robot

A machine becomes a robot when it is capable of observing its environment and taking autonomous decision based on what it sees. This is exactly what you can do with Fleye. 


You can write on-board application that leverage the camera feed, perform computer vision tasks and control the drone based on the content of the image. Fleye runs Linux and support OpenCV, a popular computer vision library. Complex tasks can be accelerated thanks to a GPU supporting OpenGL and OpenCL.


Runing OpenCV face-detection algorithm on the camera feed

Runing OpenCV face-detection algorithm on the camera feed

Remote API and SDKs

Fleye can be controlled remotely through its WiFi connection using a JSON-over-UDP API. This means that any device capable of sending messages to Fleye can act as a controller: a smartphone, but also a laptop computer or other connected objects.


Our API hasn't reached version 1.0 yet and is in active development. We count on our backers to help us improve it, providing feedback to better suit their needs. In addition to the open API, we do plan to provide various SDKs to make it easy to work with Fleye.


Android SDK

iOS SDK 

Nodejs and/or Python SDK 

On-board application development

Fleye is a Linux machine (Yocto based). You can access it over SSH and deploy your own applications directly on Fleye. This means that Fleye can be fully autonomous, performing computer vision on the main camera feed, reacting to sensor measurements and taking actions based on its environment.


A low-level API is provided to connect your application to the auto-pilot, instructing the robot to take-off, move, go to a location, land, etc. The video pipeline is managed by GStreamer and you can easily integrate your custom OpenCV plugins within.


Fleye Power Edition

The standard edition of Fleye comes with a dual-core computer and 512MB of RAM. It is more than enough to use the smartphone application and develop some simple programs. For those who really want to maximize power, we offer a special Developer Edition reward that comes with a Quad-Core computer and 1GB of RAM.



We haven't developed Fleye with one particular use-case in mind. Instead, we have made it a very versatile and open platform, to enable developers and entrepreneurs to explore new use cases, using a drone that is safe for people and its environment. Yet, here are the five use cases we believe Fleye could be the best for.


Take awesome photos and videos: Fleye is especially well suited for indoor photo and video, close to people. Sports arena, concerts halls, architectural , courtyards, etc.

Have fun piloting Fleye: Fleye is a one-of-a-kind flying machine, that is a lot of fun to pilot. 

Develop drone applications: Fleye is a platform on which you can build useful drone applications, supporting new business cases, such as: indoor inspection, surveillance, cartography, data collection, games, etc.

Marketing & Events: You can add branding to Fleye body shell, and use it to woaw the audience at your next event.

Education and Research: Need a safe drone to teach about flying robotics and play with robots in the lab? Fleye is ready to fly and a great platform for education as well as research on drones and control systems.



Fleye is a completely new take on the drone design. It is based on the "ducted fan UAV" concept, used in larger industrial/defense drones. The challenge was to shrink this technology and wrap it inside a protective shell. This work is the result of 18 months of research and development, and is now being protected by a patent.


We have been actively documenting our progress on our blog, and posting numerous videos, as well as doing demonstrations in various public events. We invite you to explore our website and social media accounts if you want to learn more.




General


Size: a sphere of Ø23cm (Ø 9'')

Total weight: 450g (16oz)

Flight


Generic 3S 1500mAh LiPo battery with XT60 connector

10 minutes flight time

+/-10cm (3'') hovering precision

15km/h (10mp/h) maximum speed

8km/h (5 mp/h) wind tolerance

On-board sensors


3-axis accelero, gyro and magnetometer

Pressure based altimeter

Sonar - Measure ground distance up to 3 meters (10')

GPS

Bottom camera for optical flow tracking

On-board computer


Dual or Quad-core ARM A9 800Mhz CPU3

Hardware video encoding - 1080p 30fps

GPU supporting OpenGL and OpenCL

512 or 1024MB RAM

Yocto Linux

USB and serial extension port

WiFi (100m range)

micro SD-card slot

Camera


5mpx Omnivision 5640 sensor

160° FOV lens

1080p 30fps video

720p H264 RTSP low-latency preview

1080p MP4 stored on SD card


Fleye was founded by Laurent and Dimitri, two engineers with a passion for robotics and flying machines. Both have 15 years of experience in their respective domain ranging from aeronautics, control systems to software development.


Next to them, they have brought together a team of freelancers and experts to help on tasks such as industrial design, electronics, embedded and mobile development.



Fleye is financed by The Faktory, a private Tech Startup Accelerator and Seed Investment Fund, and been awarded public subsidies.




The following is our current project timeline. We know that building a hardware product is hard (see Risks below) and that we may face unforeseen events that are going to delay us. Our pledge to you is to always remain transparent on our status and potential delays, informing you with at least one update per month on Kickstarter.




We have now reached the stage of a complete functional prototype. We have a great flying platform, an on-board computer, a full-hd camera module, and a first version of the mobile application with live streaming video. 


The next step is to move to mass production, being capable of producing many units, with all the same level of quality. This requires important investment, to create molds, prepare assembly and test bench, and secure components which usually have large MOQ (Minimum Order Quantities). The pre-orders secured here will help us go through this first stage, but that's not all. 


By pledging on kickstarter, you are showing us that you share our vision and enthousiasm for this flying robot. You will participate in the development of this product, give your feedback and suggestions on this version and, for the most daring ones, develop applications leveraging our APIs and SDK.


We invite you to take-off with us as cabin crew for this fantastic journey, building the future of flying robots !


Thanks,


Laurent & Dimitri





Report this project to Kickstarter

Success!


Error


Notice



 

Fleye - Your Personal Flying Robot

by Fleye

The classic drone design has many shortcomings; Fleye has gone back to the drawing board to imagine the future of autonomous flying robots. The resulting product is safer, more robust and easier to use.

 What would a drone from the future look like? At Fleye, we dream of small, autonomous, flying machines floating around us and helping us in our daily lives.  The kind of flying robot we were dreaming about as children when reading Sci-Fi comic books.

Not satisfied with current drone design, we went back to the drawing board and have invented a spherical flying machine that is safe, simple to use and autonomous.

We've also made Fleye open and programmable. Its API and SDK make it a great development platform for anyone willing to explore the future of flying robotics and its potential applications.

World Safest Drone

The main innovation of Fleye is its unique spherical design, where all moving parts are fully shielded. This means that you can hold, touch, push, and bump into Fleye without any risks of injuring yourself and others. It also means that Fleye will be more robust when bumping into something.

Fleye unique design makes it safe for people and robust to contacts
Fleye unique design makes it safe for people and robust to contacts

 Simple and fun to use

Fleye can be controlled using our smartphone application (iOS/Android support). You don't need piloting skills, just select a flying camera mode (selfie, panorama, virtual tripod, etc.), watch the live video stream and focus on capturing great photos and videos. You prefer to be in manual control? Then use our virtual gamepad or hook a bluetooth gamepad to your smartphone.

Smart and Autonomous 

Fleye has a powerful on-board computer, similar to the latest smartphones. It is a dual-core ARM A9, with hardware accelerated video encoding, two GPUs, 512MB of RAM and it runs Linux. It also supports the popular Computer Vision library OpenCV. This means that Fleye can be programmed to execute mission autonomously, reacting to what it sees in its environment.

Fleye can be programmed to perform computer vision tasks
Fleye can be programmed to perform computer vision tasks

No piloting skills required ! Fleye is really  easy to use and control, using just a smartphone (iOS/android supported). Thanks to its powerful on-board computer, Fleye is capable of executing autonomous missions for you:

  • Selfie: backs up to a given distance, and captures a video while flying smoothly back towards you.
  • Panorama: goes to a given altitude, and rotates on itself to capture a 360° panorama.
  • Hover: hovers in place with 10cm precision (when in range of sensors) so you can focus simply on altitude and viewing angle.
  • Manual: it is of course possible to fly manually, either with the virtual touch-gamepad or a bluetooth game controller. You can also add your own RC receiver to Fleye.

Since Fleye is an open platform, we welcome developers creating other applications to support specific use cases: planning a cinematic path, playing a game, tracking tags, etc. You will be able to discover and download these new application from our marketplace.

Fleye is more than a drone. Thanks to its on-board computer, and two open APIs, it is a real flying robot, that can be programmed to perform fully autonomous tasks.

Programmable flying robot

A machine becomes a robot when it is capable of observing its environment and taking autonomous decision based on what it sees. This is exactly what you can do with Fleye. 

You can write on-board application that leverage the camera feed, perform computer vision tasks and control the drone based on the content of the image. Fleye runs Linux and support OpenCV, a popular computer vision library. Complex tasks can be accelerated thanks to a GPU supporting OpenGL and OpenCL.

Runing OpenCV face-detection algorithm on the camera feed
Runing OpenCV face-detection algorithm on the camera feed

Remote API and SDKs

Fleye can be controlled remotely through its WiFi connection using a JSON-over-UDP API. This means that any device capable of sending messages to Fleye can act as a controller: a smartphone, but also a laptop computer or other connected objects.

Our API hasn't reached version 1.0 yet and is in active development. We count on our backers to help us improve it, providing feedback to better suit their needs. In addition to the open API, we do plan to provide various SDKs to make it easy to work with Fleye.

  • Android SDK
  • iOS SDK 
  • Nodejs and/or Python SDK 

On-board application development

Fleye is a Linux machine (Yocto based). You can access it over SSH and deploy your own applications directly on Fleye. This means that Fleye can be fully autonomous, performing computer vision on the main camera feed, reacting to sensor measurements and taking actions based on its environment.

A low-level API is provided to connect your application to the auto-pilot, instructing the robot to take-off, move, go to a location, land, etc. The video pipeline is managed by GStreamer and you can easily integrate your custom OpenCV plugins within.

Fleye Power Edition

The standard edition of Fleye comes with a dual-core computer and 512MB of RAM. It is more than enough to use the smartphone application and develop some simple programs. For those who really want to maximize power, we offer a special Developer Edition reward that comes with a Quad-Core computer and 1GB of RAM.

We haven't developed Fleye with one particular use-case in mind. Instead, we have made it a very versatile and open platform, to enable developers and entrepreneurs to explore new use cases, using a drone that is safe for people and its environment. Yet, here are the five use cases we believe Fleye could be the best for.

  • Take awesome photos and videos: Fleye is especially well suited for indoor photo and video, close to people. Sports arena, concerts halls, architectural , courtyards, etc.
  • Have fun piloting Fleye: Fleye is a one-of-a-kind flying machine, that is a lot of fun to pilot. 
  • Develop drone applications: Fleye is a platform on which you can build useful drone applications, supporting new business cases, such as: indoor inspection, surveillance, cartography, data collection, games, etc.
  • Marketing & Events: You can add branding to Fleye body shell, and use it to woaw the audience at your next event.
  • Education and Research: Need a safe drone to teach about flying robotics and play with robots in the lab? Fleye is ready to fly and a great platform for education as well as research on drones and control systems.

Fleye is a completely new take on the drone design. It is based on the "ducted fan UAV" concept, used in larger industrial/defense drones. The challenge was to shrink this technology and wrap it inside a protective shell. This work is the result of 18 months of research and development, and is now being protected by a patent.

We have been actively documenting our progress on our blog, and posting numerous videos, as well as doing demonstrations in various public events. We invite you to explore our website and social media accounts if you want to learn more.

General

  • Size: a sphere of Ø23cm (Ø 9'')
  • Total weight: 450g (16oz)

Flight

  • Generic 3S 1500mAh LiPo battery with XT60 connector
  • 10 minutes flight time
  • +/-10cm (3'') hovering precision
  • 15km/h (10mp/h) maximum speed
  • 8km/h (5 mp/h) wind tolerance

On-board sensors

  • 3-axis accelero, gyro and magnetometer
  • Pressure based altimeter
  • Sonar - Measure ground distance up to 3 meters (10')
  • GPS
  • Bottom camera for optical flow tracking

On-board computer

  • Dual or Quad-core ARM A9 800Mhz CPU3
  • Hardware video encoding - 1080p 30fps
  • GPU supporting OpenGL and OpenCL
  • 512 or 1024MB RAM
  • Yocto Linux
  • USB and serial extension port
  • WiFi (100m range)
  • micro SD-card slot

Camera

  • 5mpx Omnivision 5640 sensor
  • 160° FOV lens
  • 1080p 30fps video
  • 720p H264 RTSP low-latency preview
  • 1080p MP4 stored on SD card

Fleye was founded by Laurent and Dimitri, two engineers with a passion for robotics and flying machines. Both have 15 years of experience in their respective domain ranging from aeronautics, control systems to software development.

Next to them, they have brought together a team of freelancers and experts to help on tasks such as industrial design, electronics, embedded and mobile development.

Fleye is financed by The Faktory, a private Tech Startup Accelerator and Seed Investment Fund, and been awarded public subsidies.

The following is our current project timeline. We know that building a hardware product is hard (see Risks below) and that we may face unforeseen events that are going to delay us. Our pledge to you is to always remain transparent on our status and potential delays, informing you with at least one update per month on Kickstarter.

We have now reached the stage of a complete functional prototype. We have a great flying platform, an on-board computer, a full-hd camera module, and a first version of the mobile application with live streaming video. 

The next step is to move to mass production, being capable of producing many units, with all the same level of quality. This requires important investment, to create molds, prepare assembly and test bench, and secure components which usually have large MOQ (Minimum Order Quantities). The pre-orders secured here will help us go through this first stage, but that's not all. 

By pledging on kickstarter, you are showing us that you share our vision and enthousiasm for this flying robot. You will participate in the development of this product, give your feedback and suggestions on this version and, for the most daring ones, develop applications leveraging our APIs and SDK.

We invite you to take-off with us as cabin crew for this fantastic journey, building the future of flying robots !

Thanks,

Laurent & Dimitri

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Fleye - Your Personal Flying Robot

by Fleye


Details

 

Risks & challenges

 

FAQ

The classic drone design has many shortcomings; Fleye has gone back to the drawing board to imagine the future of autonomous flying robots. The resulting product is safer, more robust and easier to use.




 What would a drone from the future look like? At Fleye, we dream of small, autonomous, flying machines floating around us and helping us in our daily lives. The kind of flying robot we were dreaming about as children when reading Sci-Fi comic books.


Not satisfied with current drone design, we went back to the drawing board and have invented a spherical flying machine that is safe, simple to use and autonomous.


We've also made Fleye open and programmable. Its API and SDK make it a great development platform for anyone willing to explore the future of flying robotics and its potential applications.



World Safest Drone

The main innovation of Fleye is its unique spherical design, where all moving parts are fully shielded. This means that you can hold, touch, push, and bump into Fleye without any risks of injuring yourself and others. It also means that Fleye will be more robust when bumping into something.


Fleye unique design makes it safe for people and robust to contacts

Fleye unique design makes it safe for people and robust to contacts

 Simple and fun to use

Fleye can be controlled using our smartphone application (iOS/Android support). You don't need piloting skills, just select a flying camera mode (selfie, panorama, virtual tripod, etc.), watch the live video stream and focus on capturing great photos and videos. You prefer to be in manual control? Then use our virtual gamepad or hook a bluetooth gamepad to your smartphone.


Smart and Autonomous 

Fleye has a powerful on-board computer, similar to the latest smartphones. It is a dual-core ARM A9, with hardware accelerated video encoding, two GPUs, 512MB of RAM and it runs Linux. It also supports the popular Computer Vision library OpenCV. This means that Fleye can be programmed to execute mission autonomously, reacting to what it sees in its environment.


Fleye can be programmed to perform computer vision tasks

Fleye can be programmed to perform computer vision tasks


No piloting skills required ! Fleye is really easy to use and control, using just a smartphone (iOS/android supported). Thanks to its powerful on-board computer, Fleye is capable of executing autonomous missions for you:


Selfie: backs up to a given distance, and captures a video while flying smoothly back towards you.

Panorama: goes to a given altitude, and rotates on itself to capture a 360° panorama.

Hover: hovers in place with 10cm precision (when in range of sensors) so you can focus simply on altitude and viewing angle.

Manual: it is of course possible to fly manually, either with the virtual touch-gamepad or a bluetooth game controller. You can also add your own RC receiver to Fleye.

Since Fleye is an open platform, we welcome developers creating other applications to support specific use cases: planning a cinematic path, playing a game, tracking tags, etc. You will be able to discover and download these new application from our marketplace.




Fleye is more than a drone. Thanks to its on-board computer, and two open APIs, it is a real flying robot, that can be programmed to perform fully autonomous tasks.


Programmable flying robot

A machine becomes a robot when it is capable of observing its environment and taking autonomous decision based on what it sees. This is exactly what you can do with Fleye. 


You can write on-board application that leverage the camera feed, perform computer vision tasks and control the drone based on the content of the image. Fleye runs Linux and support OpenCV, a popular computer vision library. Complex tasks can be accelerated thanks to a GPU supporting OpenGL and OpenCL.


Runing OpenCV face-detection algorithm on the camera feed

Runing OpenCV face-detection algorithm on the camera feed

Remote API and SDKs

Fleye can be controlled remotely through its WiFi connection using a JSON-over-UDP API. This means that any device capable of sending messages to Fleye can act as a controller: a smartphone, but also a laptop computer or other connected objects.


Our API hasn't reached version 1.0 yet and is in active development. We count on our backers to help us improve it, providing feedback to better suit their needs. In addition to the open API, we do plan to provide various SDKs to make it easy to work with Fleye.


Android SDK

iOS SDK 

Nodejs and/or Python SDK 

On-board application development

Fleye is a Linux machine (Yocto based). You can access it over SSH and deploy your own applications directly on Fleye. This means that Fleye can be fully autonomous, performing computer vision on the main camera feed, reacting to sensor measurements and taking actions based on its environment.


A low-level API is provided to connect your application to the auto-pilot, instructing the robot to take-off, move, go to a location, land, etc. The video pipeline is managed by GStreamer and you can easily integrate your custom OpenCV plugins within.


Fleye Power Edition

The standard edition of Fleye comes with a dual-core computer and 512MB of RAM. It is more than enough to use the smartphone application and develop some simple programs. For those who really want to maximize power, we offer a special Developer Edition reward that comes with a Quad-Core computer and 1GB of RAM.



We haven't developed Fleye with one particular use-case in mind. Instead, we have made it a very versatile and open platform, to enable developers and entrepreneurs to explore new use cases, using a drone that is safe for people and its environment. Yet, here are the five use cases we believe Fleye could be the best for.


Take awesome photos and videos: Fleye is especially well suited for indoor photo and video, close to people. Sports arena, concerts halls, architectural , courtyards, etc.

Have fun piloting Fleye: Fleye is a one-of-a-kind flying machine, that is a lot of fun to pilot. 

Develop drone applications: Fleye is a platform on which you can build useful drone applications, supporting new business cases, such as: indoor inspection, surveillance, cartography, data collection, games, etc.

Marketing & Events: You can add branding to Fleye body shell, and use it to woaw the audience at your next event.

Education and Research: Need a safe drone to teach about flying robotics and play with robots in the lab? Fleye is ready to fly and a great platform for education as well as research on drones and control systems.



Fleye is a completely new take on the drone design. It is based on the "ducted fan UAV" concept, used in larger industrial/defense drones. The challenge was to shrink this technology and wrap it inside a protective shell. This work is the result of 18 months of research and development, and is now being protected by a patent.


We have been actively documenting our progress on our blog, and posting numerous videos, as well as doing demonstrations in various public events. We invite you to explore our website and social media accounts if you want to learn more.




General


Size: a sphere of Ø23cm (Ø 9'')

Total weight: 450g (16oz)

Flight


Generic 3S 1500mAh LiPo battery with XT60 connector

10 minutes flight time

+/-10cm (3'') hovering precision

15km/h (10mp/h) maximum speed

8km/h (5 mp/h) wind tolerance

On-board sensors


3-axis accelero, gyro and magnetometer

Pressure based altimeter

Sonar - Measure ground distance up to 3 meters (10')

GPS

Bottom camera for optical flow tracking

On-board computer


Dual or Quad-core ARM A9 800Mhz CPU3

Hardware video encoding - 1080p 30fps

GPU supporting OpenGL and OpenCL

512 or 1024MB RAM

Yocto Linux

USB and serial extension port

WiFi (100m range)

micro SD-card slot

Camera


5mpx Omnivision 5640 sensor

160° FOV lens

1080p 30fps video

720p H264 RTSP low-latency preview

1080p MP4 stored on SD card


Fleye was founded by Laurent and Dimitri, two engineers with a passion for robotics and flying machines. Both have 15 years of experience in their respective domain ranging from aeronautics, control systems to software development.


Next to them, they have brought together a team of freelancers and experts to help on tasks such as industrial design, electronics, embedded and mobile development.



Fleye is financed by The Faktory, a private Tech Startup Accelerator and Seed Investment Fund, and been awarded public subsidies.




The following is our current project timeline. We know that building a hardware product is hard (see Risks below) and that we may face unforeseen events that are going to delay us. Our pledge to you is to always remain transparent on our status and potential delays, informing you with at least one update per month on Kickstarter.




We have now reached the stage of a complete functional prototype. We have a great flying platform, an on-board computer, a full-hd camera module, and a first version of the mobile application with live streaming video. 


The next step is to move to mass production, being capable of producing many units, with all the same level of quality. This requires important investment, to create molds, prepare assembly and test bench, and secure components which usually have large MOQ (Minimum Order Quantities). The pre-orders secured here will help us go through this first stage, but that's not all. 


By pledging on kickstarter, you are showing us that you share our vision and enthousiasm for this flying robot. You will participate in the development of this product, give your feedback and suggestions on this version and, for the most daring ones, develop applications leveraging our APIs and SDK.


We invite you to take-off with us as cabin crew for this fantastic journey, building the future of flying robots !


Thanks,


Laurent & Dimitri





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