scholarly journals Meeting Workforce Demand through Industrial Partnership: A Case in Louisiana

2020 ◽  
Author(s):  
Nabin Sapkota ◽  
Laurie Morrow
2020 ◽  
Author(s):  
Nicola Pergola ◽  
Carmine Serio ◽  
Francesco Ripullone ◽  
Francesco Marchese ◽  
Giuseppe Naviglio ◽  
...  

<p>The OT4CLIMA project, funded by the Italian Ministry of Education, University and Research, within the PON 2014-2020 Industrial Research program, “Aerospace” thematic domain, aims at developing advanced Earth Observation (EO) technologies and methodologies for improving our capability to better understand the effects of Climate Change (CC) and our capability to mitigate them at the regional and sub-regional scale. Both medium-to-long term impacts (e.g. vegetation stress, drought) and extreme events with rapid dynamics (e.g. intense meteorological phenomena, fires) will be investigated, trying a twofold (i.e. interesting both “products” and “processes”) technological innovation: a) through the design and the implementation of advanced sensors to be mounted on multiplatform EO systems; b) through the development of advanced methodologies for EO data analysis, interpretation, integration and fusion.</p><p>Activities will focus on two of the major natural processes strictly related to Climate Change, namely the Carbon and Water Cycles by using an inter-disciplinary approach.</p><p>As an example, the project will make it possible the measurements, with an unprecedented accuracy of atmospheric (e.g. OCS, carbon-sulphide) and surface (e.g. soil moisture) parameters that are crucial in determining the vegetation contribution to the CO2 balance, suggesting at the same time solutions based on the analysis and integration of satellite, airborne and unmanned data, in order to significantly improve the capability of local communities to face the short- and long-term CC-related effects.</p><p>OT4CLIMA benefits from a strong scientific expertise (14 CNR institutes, ASI, INGV, CIRA, 3 Universities), considerable research infrastructures and a wide industrial partnership (including both big national players, i.e. E-Geos and IDS companies and well-established italian SMEs consortia, i.e. CREATEC, CORISTA and SIIT, and a spin-off company, Survey Lab) specifically focused on the technological innovation frontier.</p><p>This contribution would summarize the project main objectives and show some activities so far carried out.</p>


1998 ◽  
Vol 8 (1) ◽  
pp. 788-795
Author(s):  
Robert Johnson ◽  
Christina Cheetham ◽  
Gerard H. Fisher ◽  
Anne Quinn ◽  
Dennis Smith

Articult ◽  
2020 ◽  
pp. 92-103
Author(s):  
Sergey S. Pankratov ◽  

The article is devoted to the problem of attribution of individual works of the commercial and industrial partnership “P.I. Olovyanishnikov's sons”. The article describes for the first time previously unknown divisions of the Partnership, such as the icon painting studio, painting, embroidery and carpentry workshops, brocade factory, and indicates sources confirming their existence. The date of creation of the Church utensils factory in Moscow has been revealed. For the first time, the structure of the Partnership, its staff and their qualifications are analyzed. The relationship between the Partnership and the Stroganov school is revealed. The article analyzes the relationship between Olovyanishnikov and other manufacturers of art products and the artist M.V. Nesterov. The article describes the principles of product separation depending on its artistic merits. We consider the profile reference materials printed publications of the enterprise, which contain information about the types of products of the Partnership.


2020 ◽  
Vol 321 ◽  
pp. 11081
Author(s):  
Corentin DIDES ◽  
Thomas BILLOT ◽  
Nicolas GUILLEMOT

CONDOR is an R&D project lead by IRT-M2P with different industrial partnership to increase knowledge and simulation models of shot peening. This surface hardening process aims to perform different shots with high velocity on metallic surfaces to introduce compressive stresses on it. Fatigue behavior of shot peened parts is significantly improved. During this research project a DOE has been carried out to optimize shot peening parameters on titanium alloys (surface roughness before shot peening, size and shot’s hardness, covering and intensity). The DoE is composed by more than 300 fatigue specimens. All this data allows us to define specifically each shot peening parameter influence on shot penned parts efficiency. CONDOR project allows simulation development of models to simulate shot peening effect by taking into account the parameters introduced above. Those models are used to evaluate residual stress level and fatigue lifetime after shot peening and to confirm models readiness level. This study has defined optimized machining and shot peening conditions in order to increase parts fatigue lifetime.


Author(s):  
Igor R. Ashurbeyli ◽  

Private sector involvement in the International Space Station (ISS) is becoming increasingly important as commercial organisations provide services and hardware to enhance the orbital operations of the Space Station which, in November 2020, marked two decades of continuous occupation. During the first Asgardia Space Science & Investment Conference, held in Germany in October 2019, a project to add a new commercially procured docking module to the ISS was announced as a key step to expanding the permanent human presence in low Earth orbit. Dr Igor Ashurbeyli, General Designer, provides a technical overview of the project and the industrial partnership arranged to deliver it.


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