Like the First Industrial Revolution’s steam-powered factories, the Second Industrial Revolution’s application of science to mass production and manufacturing, and the Third Industrial Revolution’s start into digitization, the Fourth Industrial Revolution’s technologies, such as artificial intelligence, genome editing, augmented reality, robotics, and 3-D printing, are rapidly changing. The Shurflo Revolution™ fresh water pump design was created with a unique one-piece diaphragm and internal by-pass, assuring long life and top performance in all plumbing systems. The quality reputation of Shurflo is built on the reliability and dependability of every pump we build.
The Revolution is a unique game with a singular art style set in the blood-soaked and paranoid world of the French Revolution, where often you could not tell a friend from an enemy. As a judge of the Revolutionary Tribunal, you will have to trudge through this setting passing sentences, playing a dangerous political game, and doing.
Editor Klabater Desarrollador Polyslash Fecha de lanzamiento 21 Mar 2019
Como juez del Tribunal Revolucionario en París durante la Revolución francesa, preside complejos juicios que involucran a ciudadanos de a pie, delincuentes peligrosos y enemigos de la revolución. Da tu veredicto, participa en intrigas políticas y trata de no perder la cabeza.
Descripción del juego
We. The Revolution es un juego único con un estilo artístico muy particular. Está situado en la época sangrienta y paranoica de la Revolución francesa, donde a menudo no existía la diferencia entre amigo y enemigo. Como juez del Tribunal Revolucionario, tendrás que lidiar con este contexto dictando sentencias, participando en arriesgadas tretas políticas y haciendo todo lo que esté en tus manos para no acabar en la guillotina condenado como enemigo de la revolución. Además, tendrás que enfrentarte a las opiniones de tus familiares, quienes a menudo no pensarán como tú.
El argumento de We. The Revolution te pondrá en situaciones moralmente ambiguas que no tienen soluciones obvias, y las decisiones que tomes siempre tendrán contrapartidas. El poder sobre la vida y la muerte es una carga muy pesada, en ello está la responsabilidad y la voluntad que puede afectar al destino de la revolución. Tenlo en cuenta cada vez que tengas que dictar sentencia en la sala, a hora de asignar tareas a tus agentes, al pronunciar discursos o al ser artífice de intrigas políticas secretas. Esta experiencia está dirigida especialmente a jugadores que disfrutan resolviendo dilemas morales, tomando decisiones personales difíciles y a los que le guste sumergirse en el mundo de las conspiraciones políticas.
EN WE. THE REVOLUTION PODRÁS:
- Dar forma a la historia y decidir quién vive y quién muere.
- Experimentar la atmósfera de opresión de la Revolución francesa como la conociste en novelas clásicas de Alexandre Dumas y Joseph Conrad.
- Presidir decenas de casos judiciales únicos y moralmente ambiguos.
- Enfrentarte al juicio de tu familia (tus seres queridos puede que a menudo no estén de acuerdo con tus decisiones).
- Dirigir tu propia sala de juicios, interrogar a los testigos, analizar pruebas, leer informes y dictar sentencia.
- Hacer amigos y enemigos de diferentes facciones que se disputan el poder. ¡Conviértelos en tus socios o hazlos desaparecer!
- Participar en una mezcla de géneros que combinan la presidencia en los juicios con la elaboración de contubernios políticos bajo un sistema de turnos.
- Descubre un estilo visual original que combina la sobriedad de los polígonos con el arte neoclásico de esta era revolucionaria.
We. The Revolution es una historia simbólica que se basa vagamente en eventos históricos de la época de la gran Revolución. Experimenta la vida en tiempos revolucionarios. Hazte ya con We. The Revolution.
Capturas
![We The Revolution 1 3 0 We The Revolution 1 3 0](https://steamcdn-a.akamaihd.net/steam/apps/736850/ss_4c5a7f8517fe9a0b0afa9f662eb775727fc6c5b9.1920x1080.jpg?t=1601021280)
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Requisitos
Mínimo:- SO: Windows 7 SP1 / 8.1 / 10
- Procesador: 3.0 GHz Dual-Core - Intel Core 2 Duo E8400
- Memoria: 4 GB de RAM
- Gráficos: 512 MB VRAM, Intel HD 4400 / NVIDIA GeForce 9600GT / AMD Radeon HD 3850
- DirectX: Versión 11
- Almacenamiento: 4 GB de espacio disponible
- SO: Windows 7 SP1 / 8.1 / 10
- Procesador: 3.1 GHz Dual-Core - Intel i3 2100
- Memoria: 6 GB de RAM
- Gráficos: 1 GB VRAM, NVIDIA GeForce GTX 550 Ti / AMD Radeon HD 5850
- DirectX: Versión 11
- Almacenamiento: 4 GB de espacio disponible
Idiomas (Multi-3)
Links
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It’s a high-tech project started by theGerman government, which promotes thecomputerizationof manufacturing. Before moving onto Industry 4.0, let us see in brief about what Industry 1.0, 2.0 & 3.0 were.
The first industrial revolution (1.0) was the mechanization of production using water and steam power. Thesecond industrial revolution (2.0)then introduced mass production with the help ofelectric power, followed by the third industrial revolution (3.0)digital revolutionand the use of electronics and IT to further automate production. Now Fourth industrial revolution (4.0):-
Industry 4.0is a collective term for technologies and concepts ofvalue chain organization.Based on the technological concepts ofcyber-physical systems, theInternet of Thingsand theInternet of Services,it facilitates the vision of the Smart Factory. Within the modular structured Smart Factories of Industry 4.0,cyber-physical systemsmonitor physical processes, create a virtual copy of the physical world and make decentralized decisions. Over theInternet of Things,Cyber-physical systemscommunicate and cooperate with each other and humans in real time. Via theInternet of Services, both internal and cross-organizational services are offered and utilized by participants of the value chain.
Similar to Germany, in the United States an initiative known as the Smart Manufacturing Leadership Coalition (SMLC) is also working on the future of manufacturing. Their aim is to enable stakeholders in the manufacturing industry to form collaborative R & D, implementation and advocacy groups for development of the approaches, standards, platforms and shared infrastructure that facilitate the broad adoption of manufacturing intelligence.
On these lines, GE has been working on an initiative called ‘The Industrial Internet’. It aims to bring together the advances of two transformative revolutions:
(a) The myriad machines, facilities, fleets and networks that arose from the Industrial Revolution, and
(b) The more recent powerful advances in computing, information and communication systems brought to the fore by the Internet Revolution.
Industry 4.0 is based on six design principles. These principles support companies in identifying and implementing Industry 4.0 scenarios.
- Interoperability: the ability of cyber-physical systems (i.e. work piece carriers, assembly stations and products), humans and Smart Factories to connect and communicate with each other via the Internet of Things and the Internet of Services
- Virtualization: a virtual copy of the Smart Factory which is created by linking sensor data (from monitoring physical processes) with virtual plant models and simulation models
- Decentralization: the ability of cyber-physical systems within Smart Factories to make decisions on their own
- Real-Time Capability: the capability to collect and analyze data and provide the insights immediately
- Service Orientation: offering of services (of cyber-physical systems, humans and Smart Factories) via the Internet of Services
- Modularity: flexible adaptation of Smart Factories for changing requirements of individual modules
In the above mentioned design principles we have read “Cyber Physical Systems” a lot of times. Let’s understand what are Cyber-Physical Systems (CPS)?
A cyber-physical system (CPS) is a system of collaborating computational elements controlling physical entities. CPS are physical and engineered systems whose operations are monitored, coordinated, controlled and integrated by a computing and communication core. They allow us to add capabilities to physical systems by merging computing and communication with physical processes.
CPS benefits:
• Safer and more efficient systems
• Reduce the cost of building and operating the systems
• Build complex systems that provide new capabilities
• Reduced cost of computation, networking, and sensing
• Enables national or global scale CPS’s
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In the manufacturing environment, these Cyber-Physical Systems comprise smart machines, storage systems and production facilities capable of autonomously exchanging information, triggering actions and controlling each other independently.
Smart factories allow individual customer requirements to be met i.e. even one-off items can be manufactured profitably. In Industry 4.0, dynamic business and engineering processes enable last-minute changes to production and deliver the ability to respond flexibly to disruptions and failures on behalf of suppliers. For example, end-to-end transparency is provided over the manufacturing process, facilitating optimized decision-making.
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Differences between a typical factory today and an Industry 4.0 factory:
In the current industry environment, providing high-end quality service or product with the least cost is the key to success and industrial factories are trying to achieve as much performance as possible to increase their profit. In this way, various data sources are available to provide worthwhile information about different aspects of the factory. In this stage, the utilization of data for understanding the current condition and detecting faults and failures is an important topic to research. For instance, in production, there are various commercial tools available to provide OEE (Overall Equipment Effectiveness) information to factory management in order to highlight root cause of problems and possible faults in the system.
In comparison, in an Industry 4.0 factory, in addition to condition monitoring and fault diagnosis, components and systems are able to gain self-awareness and self-prediction, which will provide management with more insight on the status of the factory. Furthermore, peer-to-peer comparison and fusion of health information from various components provides a precise health prediction in component and system levels and force factory management to trigger required maintenance at the best possible time to reach just-in time maintenance and gain near zero downtime.
Modern information and communication technologies like Cyber-Physical Systems, Big Data and Cloud Computing will help predict the possibility to increase productivity, quality and flexibility within the manufacturing industry and thus to understand advantages within the competition.
Let us see a basic manufacturing example :Supporting custom manufacturing
How an individual customer’s requirements can be met? The dynamic value chains of Industry 4.0 enable customer- and product-specific coordination of design, configuration, ordering, planning, production and logistics. This also provides the opportunity to incorporate last-minute requests for changes immediately prior to or even during production.
TODAY
Today’s automotive industry is characterized by static production lines (with predefined sequences) which are hard to reconfigure to make new product variants. Software-supported Manufacturing Execution Systems (MES) are normally designed with narrowly defined functionality based on the production line’s hardware and are therefore equally static. Individuality is not encouraged. As a result, it is not possible to incorporate individual customer requests to include an element from another product group made by the same company, for example to fit a Volkswagen with Porsche seats.
![Revolution Revolution](https://steamcdn-a.akamaihd.net/steamcommunity/public/images/clans/31187053/d2e5182aa2cbf41f2fb4508e923c1053e2c096ff.jpg)
TOMORROW
Industry 4.0 results in the emergence of dynamic production lines. Vehicles become smart products that move autonomously through the assembly shop from one CPS-enabled processing module to another. The dynamic reconfiguration of production lines makes it possible to mix and match the equipment with which vehicles are fitted; furthermore, individual variations (e.g. fitting a seat from another vehicle series) can be implemented at any time in response to logistics issues (such as bottlenecks) without being constrained by centrally prescribed timings. It is simple to execute this type of reconfiguration and the cars move autonomously to the relevant workstation.
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References:-
- Recommendations for implementing the strategic initiative INDUSTRIE 4.0 (Final Report of the Industrie 4.0 working Group)
- Wikipedia (https://en.wikipedia.org/wiki/)