R&D

Our technical knowledge and multidisciplinary skills allow us to face with industrial research projects or to participate as a partner in each of the realization and development stages of new projects ideas.

Progetto TAN TOM  “Tanning Tomography”

Tecniche di Indagine Ottica Multispettrale, Elettromagnetica Tomografica elaborate da un Sistema di Intelligenza Artificiale applicata al Settore Conciario

tantom-compolab

Accordi per l'innovazione di cui al D.M. 31 Dicembre 2021 e DD 18 Marzo 2022, Prog n. F/310106/01/X56 CUP: B69J23000790005 - COR: 15868802

Partenariato:

  • Barnini srl 
  • TECNOCREO srl
  • S.I.R.I.O. lavorazione conciaria srl 
  • Consorzio nazionale interuniversitario per le telecomunicazioni (CNIT)
  • Stazione Sperimentale per l’Industria delle Pelli e delle materie concianti (SSIP)

Scopo del Progetto:

Il progetto TAN-TOM si pone come obiettivo la realizzazione di un sistema “tomografico” di ispezione delle pelli al fine di oggettivare la qualità delle medesime durante i processi di lavorazione.

Lavoro di Compolab nel progetto:

Il sistema di acquisizione ottico multispettrale trae ispirazione da un sistema ottico sviluppato da Compolab  denominato COMP-EYE-V2. Compolab si occuperà di dare supporto alla progettazione meccanica, elettronica e software del sistema ai partner del progetto.

Durata: 36 mesi

DIGITALIS

DIGItal Twin for heALthy buIldingS

digitalis-compolab

Partenariato:

  • RI.EL.CO IMPIANTI S.r.l
  • UNIVERSITÀ SAPIENZA DI ROMA
  • COMPOLAB S.r.l.
  • HARPACEAS S.r.l.

Scopo del Progetto:

Progettazione e realizzazione di un sistema tecnologico-digitale intelligente per rendere sani gli edifici esistenti al fine di migliorare la sicurezza, la salute e la qualità della vita delle persone che li utilizzano.

Progetto VOC-TAN

“Volatile Organic Compound abatement system in TANnery environment”

“Progetti di ricerca e sviluppo delle MPMI” approvato con D.D. n. 11891 del 10/08/2017

CUP 3553.04032020.158000226

Progetto di RI&SS :

A research and development project aimed at implementing innovative processes for the treatment and reduction of volatile organic solvents (VOCs) from leather painting booth emissions. The goal is to improve removal efficiency compared to traditional systems by designing an emissions treatment facility for air and water in line with the Industry 4.0 paradigm. This system is based on a sorbent produced within the same district, promoting a circular economy approach.

Partenariato:

Sime Srl

Compolab srl

SUED Srl

Università di Pisa Dipartimento Ingegneria Civile e Industriale (DICI)

Periodo di realizzazione del progetto:

Gennaio 2021 – Giugno 2022 

Budget totale del progetto:

€ 1.497.397,00

Sostegno finanziario ricevuto da Compolab S.r.l.:

€ 102.414,00

S.I.NC.R.O. 4.0

Progetto co-finanziato dal Programma Regionale di Sviluppo Economico (PRSE) 2016-2020 “Protocolli di Insediamento per l’Area di crisi industriale complessa di Livorno. Bando approvato con il D.D. n. 11042, 01 Giugno 2022”
Domanda: CUP ST 6695.31122014.083000183

Progetto di RI&SS :
rivolto al potenziamento del laboratorio di test e di sviluppo di sensoristica avanzata e di ottimizzazione di eventuali dimostratori e allo sviluppo di modalità innovative di monitoraggio in tempo reale dei macchinari industriali da remoto con modelli virtuali che ne permettano di simulare il funzionamento, sviluppare algoritmi di intelligenza artificiale finalizzati al controllo real time, il tutto flessibile e coerente ai paradigmi della “Fabbrica Intelligente” e “Impresa 4.0”.

Periodo di realizzazione del progetto:


2022-2024

Budget totale del progetto:

€ 766.433,00

Sostegno finanziario ricevuto da Compolab S.r.l.:

€ 349.692,00


A.N.C.E.S.T.R.AL 4.0

Progetto co-finanziato dal Programma Regionale di Sviluppo Economico (PRSE) 2016-2020 “Protocolli di Insediamento per l’Area costiera livornese e per il polo urbano per l’innovazione di Livorno. Bando approvato con il D.D. n. 11708, 20 Luglio 2020”
Domanda: CUP 6695.31122014.083000141

Progetto di RI&SS :
rivolto alla creazione di un centro specializzato che si possa proporre come partner qualificato per la progettazione e fornitura di dispositivi di acquisizione dati soluzioni evolute, integrate e customizzate per applicazioni industriali dispositivi di marcatura e tracciabilità di prodotto, tecniche e mezzi di AI per trattamento dati ad elevata numerosità, diversità e variabilità, il tutto flessibile e coerente ai paradigmi della “Fabbrica Intelligente” e “Impresa 4.0”.

Periodo di realizzazione del progetto:
2020-2022

Budget totale del progetto:
€ 747.354,00

Sostegno finanziario ricevuto da Compolab S.r.l.:
€ 322.039,00

Customer:

Self-initiated project

Project:

ROBOLAB 4.0 - Specialized Center for Robotics, Automation, and Additive Technologies compoLAB 4.0

Performed Task:
Through the Settlement Protocols for Complex Crisis Areas initiative of the Province of Livorno, Compolab will establish an advanced experimentation and applied research center, extensively utilizing metal and polymer additive manufacturing machines, anthropomorphic and collaborative robots, as well as vision systems for position detection and trajectory creation support.
With the ROBOLAB 4.0 project, Compolab aims to strengthen its internal capability to control the entire process chain from ideation to product realization. This includes designing and producing optimized components for their intended use and the devices employed for automation or robotics operations. The goal is to make solutions more reliable, high-performing, flexible, and aligned with the principles of the "Smart Factory" and "Industry 4.0.

Customer:

The project activities are carried out by a Temporary Business Group (A.T.S.) composed of Compolab, Cisa, Mec Industries, Sued, and the Institute of Biorobotics at the Sant'Anna School.

Project:
Introduction of automation and robotics features in the disinfection and sterilization of surgical instruments. Go

Performed Task:
Compolab is heavily involved in research and study activities related to both the development of the "capsule" and the design and implementation of processing stations. These activities were scheduled for the years 2017-2020.

Customer:

HVM Srl Company

Project:
Support for the company in implementing the activities of a project funded by the Tuscany Region's Call for Proposals for Local Contracts in the Complex Crisis Areas of the Livorno and Piombino Area. The project focuses on important activities aimed at perfecting a system for the storage and injection of liquefied natural gas (LNG) into internal combustion engines.

Work Performed (2017-2019)
Project design
Support for the company during the project implementation phases
Research and experimental product and process development activities

Customer:

MEC Industries

Project:
Design and development of a prototype for an information monitoring and production progress communication system.

Work Performed (2019)
Design of hardware and software architecture
Design of mechanical and electronic components for Android-based HMI stations to be installed near the machinery
Design of mechanical and electronic components for barcode reader mechanical supports
Manufacturing of prototypes for the designed hardware, extensively tested with plant operators

Customer:

MEONI E BARTOLETTI SPA

Project:
The contracting company will carry out the planned activities as part of an R&D project (acronym FRAMPI) co-financed through the Tuscany Region's POR CREO FESR 2014-2020 Action: 1.1.5 – Sub-action: a1 – Call 1 "Strategic Research and Development Projects," with Continental Spa as the lead company. Specifically, the activities of the contracting company are aimed at researching and experimenting with new methods of galvanic treatment of metals for components primarily intended for the automotive market.

Work Performed (2017-2019)
Support for the company during the project implementation phases
Research and experimental development activities to identify innovative treatment methods
Construction of a pilot plant demonstrator for the treatment process

Customer:

WASS Spa

Project:
V-Fides.

Work Performed:

PParticipation in the conceptual study and design phase of a remotely operated underwater vehicle (ROV) with electric propulsion and a hull primarily made of carbon fiber. The ROV is intended for various missions of different nature and complexity.

Activities: conceptual study, design, Computational Fluid Dynamics (CFD) and Finite Element Method (FEM) analysis, layout of internal equipment, and assistance in the physical construction of the device.

Customer:

Compolab and other partners (in a temporary joint venture)

Project:
Design and prototypical implementation of an integrated process for the utilization of forested areas through a georeferencing system to identify cutting zones. It involves the use of machinery for debarking, cutting, quality control, marking, and traceability of the timber destined for processing stations.

Work Performed (2014-2016):
Design and prototypical implementation of the cutting machine head for carrying out operations such as cleaning (debarking) of the selected trunk, cutting, qualitative assessment of the same, followed by tagging to ensure traceability from the cutting site to the processing station.

Customer:

Edilmetas SRL

Project:

Development of a postural training machine.

Work Performed:

Conceptual design

Design

Prototyping

Testing

Verified by MonsterInsights