We develop a large number of software tools and hosting infrastructures to support the research developed at the Department. We will be detailing in this section the different tools available. You can take a look for the moment at the offer available within the UPF Knowledge Portal, the innovations created in the context of EU projects in the Innovation Radar and the software sections of some of our research groups:

 

 Artificial Intelligence

 Nonlinear Time Series Analysis

 Web Research 

 

 Music Technology

 Interactive  Technologies

 Barcelona MedTech

 Natural Language  Processing

 Nonlinear Time Series  Analysis

UbicaLab

Wireless Networking

Educational Technologies

GitHub

 

 

Back M. Morenza-Cinos, V. Casamayor-Pujol, J. Soler-Busquets, J. L. Sanz, R. Guzman, and R. Pous (2017), Development of an RFID Inventory Robot (AdvanRobot). ROBOT OPERATING SYSTEM : the complete reference (Volume 2)., 1st ed., A. (Ed. Koubaa, Ed. SPRINGER)

M. Morenza-Cinos, V. Casamayor-Pujol, J. Soler-Busquets, J. L. Sanz, R. Guzman, and R. Pous (2017), Development of an RFID Inventory Robot (AdvanRobot). ROBOT OPERATING SYSTEM: the complete reference (Volume 2), 1st ed., A. (Ed. Koubaa, Ed. SPRINGER)

AdvanRobot proposes a new robot for inventorying and locating all the products inside a retail store without the need of installing any fixed infrastructure. The patent pending robot combines a laser-guided autonomous robotic base with a Radio Frequency Identification (RFID) payload composed of several RFID readers and antennas, as well as a 3D camera.

AdvanRobot is able not only to replace human operators, but to dramatically increase the efficiency and accuracy in providing inventory, while also adding the capacity to produce store maps and product location. Some important benefit of the inventory capabilities of AdvanRobot are the reduction in stock-outs, which can cause a drop in sales and are the most important source of frustration for customers; the reduction of the number of items per reference maximizing the number of references per square meter; and reducing the cost of capital due to over-stocking. Another important economic benefit expected from the inventorying and location capabilities of the robot is the ability to efficiently prepare on-line orders from the closest store to the customer, allowing retailers to compete with the likes of Amazon (a.k.a. omnichannel retail). Additionally, the robot enables to: produce a 3D model of the store; detect misplaced items; and assist customers and staff in finding products (wayfinding).

Keywords:

Professional service robotics applications with ROS, Logistic robots, Service robotics, Autonomous robots, Mobile robots, RB1-Base, RFID

Additional material:

  • Pre-print
  • Software
    • ROS package - framework for exloration and mapping of 3D environments (GitHub)
    • Packages for basic simulation (GitHub)