Difference between revisions of "Video Game Technology Spillover"

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[[File:Game Spillover front cover.jpg|thumb|border|400px|Ukie and FTI 2023 Economic Impacts of Video Game Technology Spillover report]]
 
[[File:Game Spillover front cover.jpg|thumb|border|400px|Ukie and FTI 2023 Economic Impacts of Video Game Technology Spillover report]]
  
In 2023, Ukie and FTI Consulting [https://ukie.org.uk/news/2023/11/spillover-technology-from-video-games-worth-1-3-billion-in-2021 published a report] that assessed the impact of video game technologies’ contribution to non-game sectors in the UK and select Nordic economies. It is considered the first time such a report has been commissioned in the UK.
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In 2023, Ukie and FTI Consulting [https://ukie.org.uk/news/2023/11/spillover-technology-from-video-games-worth-1-3-billion-in-2021 published a report] that assessed the impact of video game technologies’ contribution to non-game sectors in the UK and select Nordic economies.
  
 
The report defined ‘spillover’ technology as instances where otherwise unrelated sectors have adopted and applied innovations from game developers to enhance their products and improve their business operations.
 
The report defined ‘spillover’ technology as instances where otherwise unrelated sectors have adopted and applied innovations from game developers to enhance their products and improve their business operations.
  
  
==Games Spillover in the United Kingdom==
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== Games Spillover in the United Kingdom ==
In 2021, the video game industry significantly influenced the UK economy through technology spillovers. These impacts were not limited to the games sector but extended to other sectors, demonstrating the pervasive nature of video game technologies such as game engines, virtual reality (VR), and augmented reality (AR).
 
  
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In 2021, the video game industry had a substantial impact on the UK economy, with technology spillovers extending far beyond the games sector. These spillovers influenced various industries, showcasing the widespread application of video game technologies such as game engines, virtual reality (VR), and augmented reality (AR).
  
===Key Figures===
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The economic impact of these spillovers is measured in three key areas: '''direct''', '''indirect''', and '''induced''' effects.
  
*'''Employment''': Video game technology spillovers supported nearly 10,000 jobs in the UK.
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* '''Direct effects''' refer to the immediate economic contributions of video game technologies, such as the jobs created directly within the industry.
 +
* '''Indirect effects''' encompass the economic activity generated within the supply chain due to the demand for goods and services needed by the video game sector.
 +
* '''Induced effects''' are the broader economic impacts resulting from the increased household spending by those employed in both the direct and indirect sectors.
  
*'''Output''': The total economic output from these spillovers was approximately £1.3 billion.
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Together, these direct, indirect, and induced impacts significantly contributed to the UK's output and employment in 2021.
  
*'''GDP Contribution''': The spillovers added around £760 million to the UK's GDP.
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== Key Figures ==
  
*'''Labour Income''': The spillovers generated £380 million in labour income.
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{| class="wikitable"
 +
! Metric !! Value
 +
|-
 +
| '''Employment''' || Nearly 10,000 jobs supported by video game technology spillovers in the UK.
 +
|-
 +
| '''Output''' || £1.3 billion in total economic output from these spillovers.
 +
|-
 +
| '''GDP Contribution''' || £760 million added to the UK's GDP.
 +
|-
 +
| '''Labour Income''' || £380 million generated in labour income.
 +
|-
 +
| '''Government Revenues''' || £250 million contributed to government revenues.
 +
|}
  
*'''Government Revenues''': The activities supported by these spillovers contributed £250 million to government revenues
 
  
  
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===Employment Impact===
 
===Employment Impact===
  
Video game technology spillovers supported nearly 10,000 jobs across various sectors in the UK in 2021 in the following area:
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Video game technology spillovers supported nearly 10,000 jobs across various sectors in the UK in 2021 in the following areas:
  
 
{| class="wikitable"
 
{| class="wikitable"
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|}
 
|}
  
==Games Spillover in selected Nordic Countries==
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== Comparative Salaries ==
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The average annual salary for workers directly employed as a result of video game technology spillovers was approximately £42,990. This is about 25% higher than the average annual salary of a UK worker, which stands at £34,280.
 +
 
 +
==Games Spillover in Nordic Countries==
  
The report also looked at the impact of video games technology in selected Nordic Countries. These countries were Denmark, Finland, Norway, and Sweden
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The report also looked at the impact of video games technology in Nordic Countries. These countries were Denmark, Finland, Norway, and Sweden
  
 
===Key Figures===
 
===Key Figures===
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* '''Haptic Technology''': [https://fundamentalsurgery.com/platform/hapticvr/ FundamentalVR’s HapticVR] technology provides life-like surgical training using haptic gloves and controllers. This platform has been deployed by institutions like St. George’s Hospital and the Houston Methodist Institute, offering a realistic training environment for medical professionals.
 
* '''Haptic Technology''': [https://fundamentalsurgery.com/platform/hapticvr/ FundamentalVR’s HapticVR] technology provides life-like surgical training using haptic gloves and controllers. This platform has been deployed by institutions like St. George’s Hospital and the Houston Methodist Institute, offering a realistic training environment for medical professionals.
 
* '''Patient Care''': VR technologies like [https://www.relievrx.com/ RelieVRx], developed by AppliedVR, aid in chronic pain management by employing cognitive behavioural therapy principles, significantly reducing pain for users in clinical trials.
 
* '''Patient Care''': VR technologies like [https://www.relievrx.com/ RelieVRx], developed by AppliedVR, aid in chronic pain management by employing cognitive behavioural therapy principles, significantly reducing pain for users in clinical trials.
 
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* '''Pharmaceutical Development''': [https://c4xdiscovery.com/our-approach/#:~:text=4sight,medical%20industry%E2%80%99s%20needs. 4Sight by C4X Discovery] uses Unreal Engine to visualise molecular data in a VR space, aiding in drug discovery and development. This technology enhances scientists' ability to interact with complex data and has been instrumental in projects like the development of a COVID-19 vaccine.
  
  
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====Machinery Manufacturing====
 
====Machinery Manufacturing====
 
Game technologies enhance manufacturing processes:
 
Game technologies enhance manufacturing processes:
* '''Digital Designs and Simulations''': Tools like [https://unity.com/resources/unity-for-artengine Unity’s ArtEngine] enable manufacturers to create detailed digital twins of products. For example, Flokk uses these digital twins to offer customers a realistic visualisation of customisable chair components, improving the online shopping experience and reducing returns.
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* '''Digital Designs and Simulations''': Tools like [https://unity.com/resources/unity-for-artengine Unity’s ArtEngine] enable manufacturers to create detailed digital twins of products is a virtual representation of a physical object. For example,. For example, [https://store.flokk.com/uk/en-gb/products Flokk] uses these digital twins to offer customers a realistic visualisation of customisable chair components, improving the online shopping experience and reducing returns.
 
* '''Interactive Product Visualisation''': Companies like [https://unity.com/case-study/autoliv Autoliv] use game engines to create interactive 3D views of automotive safety parts, allowing customers to explore products in detail from multiple angles.
 
* '''Interactive Product Visualisation''': Companies like [https://unity.com/case-study/autoliv Autoliv] use game engines to create interactive 3D views of automotive safety parts, allowing customers to explore products in detail from multiple angles.
 
 
 
====Finance and Insurance====
 
Advanced data visualisation tools derived from game technologies are utilised in the finance and insurance sectors:
 
* '''[https://c4xdiscovery.com/our-approach/#:~:text=4sight,medical%20industry%E2%80%99s%20needs. 4Sight by C4X Discovery]''': This tool uses Unreal Engine to visualise molecular data in a VR space, aiding in drug discovery and development. This technology enhances scientists' ability to interact with complex data and has been instrumental in projects like the development of a COVID-19 vaccine.
 
 
 
 
====Fabricated Metals====
 
The manufacturing processes in this sector are enhanced by game-based simulations and precision tools:
 
* '''Simulation and Visualisation''': Game engines are used to create precise simulations of manufacturing processes, improving efficiency and accuracy in the production of fabricated metal products.
 
 
  
  
 
====Publishing and Audiovisual====
 
====Publishing and Audiovisual====
Game engines play a crucial role in producing interactive media and advanced visual effects:
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Game engines are sophisticated software platforms that enable the creation of interactive media and advanced visual effects. These engines allow creators to render real-time graphics, simulate physical behaviours, and integrate complex animations seamlessly into digital environments.
* '''Visual Effects''': The cinematographer of [https://www.starwars.com/news/the-mandalorian-stagecraft-feature Disney+’s "The Mandalorian"] praised game engines for speeding up production and improving the final product by offering real-time views of the finished VFX. This technology reduces the need for physical props and locations, enabling more sustainable and cost-effective productions.
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* '''Visual Effects''': Game engines are instrumental in enhancing the production of visual effects (VFX) for television and film. For example, the cinematographer of Disney+’s ''The Mandalorian'' praised game engines for their ability to speed up the production process and improve the final product. By providing real-time views of the finished VFX, these engines reduce the need for physical props and on-location shooting, enabling more sustainable and cost-effective productions.
* '''Virtual Production''': Studios like [https://www.ilm.com/ilmxlab-epic-games-team-showcase-vr-visual-development/ Industrial Light & Magic] and [https://www.screendaily.com/news/film-soho-to-launch-virtual-production-studio-in-central-london-exclusive/5170458.article Film Soho] utilise game engines to create dynamic, photo-real digital landscapes, enhancing the production of films and TV shows like "Thor: Love and Thunder" and "Rogue One: A Star Wars Story".
+
* '''Virtual Production''': Virtual production refers to the use of game engines to create dynamic, photo-real digital landscapes that can be displayed in real-time during filming. This technology allows filmmakers to see and interact with visual effects directly in-camera, rather than adding them in post-production. Studios like [https://www.ilm.com/ilmxlab-epic-games-team-showcase-vr-visual-development/ Industrial Light & Magic] and [https://www.screendaily.com/news/film-soho-to-launch-virtual-production-studio-in-central-london-exclusive/5170458.article Film Soho] are leading the way in this field, using game engines to enhance the production of films and TV shows such as "Thor: Love and Thunder" and "Rogue One: A Star Wars Story". By integrating these effects during the filming process, virtual production allows for greater creative flexibility, improved efficiency, and a more immersive experience for actors and directors on set.
  
  
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These industries utilise game technology for simulations and training modules:
 
These industries utilise game technology for simulations and training modules:
 
* '''VR Training''': Companies like [https://youtu.be/B3p_SEJwhJ4?si=F4waOLY3rbgGTXmk Neptune Energy] use VR applications for offshore worker training, allowing them to interact with realistic 3D models of platforms from onshore. This reduces the need for travel, lowers costs, and enhances safety.
 
* '''VR Training''': Companies like [https://youtu.be/B3p_SEJwhJ4?si=F4waOLY3rbgGTXmk Neptune Energy] use VR applications for offshore worker training, allowing them to interact with realistic 3D models of platforms from onshore. This reduces the need for travel, lowers costs, and enhances safety.
* '''Digital Twins''': [https://www.equinor.com/energy/digital-twin Equinor] employs digital twin solutions to navigate installations and collaborate in real-time, improving project development and operational efficiency.
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* '''Digital Twins''': [https://www.equinor.com/energy/digital-twin Equinor] employs digital twin solutions to navigate installations and collaborate in real-time, improving project development and operational efficiency. By using these digital replicas, Equinor can better manage complex projects, predict potential issues, and streamline operations across their installations.

Revision as of 15:56, 14 August 2024

Ukie and FTI 2023 Economic Impacts of Video Game Technology Spillover report

In 2023, Ukie and FTI Consulting published a report that assessed the impact of video game technologies’ contribution to non-game sectors in the UK and select Nordic economies.

The report defined ‘spillover’ technology as instances where otherwise unrelated sectors have adopted and applied innovations from game developers to enhance their products and improve their business operations.


Games Spillover in the United Kingdom

In 2021, the video game industry had a substantial impact on the UK economy, with technology spillovers extending far beyond the games sector. These spillovers influenced various industries, showcasing the widespread application of video game technologies such as game engines, virtual reality (VR), and augmented reality (AR).

The economic impact of these spillovers is measured in three key areas: direct, indirect, and induced effects.

  • Direct effects refer to the immediate economic contributions of video game technologies, such as the jobs created directly within the industry.
  • Indirect effects encompass the economic activity generated within the supply chain due to the demand for goods and services needed by the video game sector.
  • Induced effects are the broader economic impacts resulting from the increased household spending by those employed in both the direct and indirect sectors.

Together, these direct, indirect, and induced impacts significantly contributed to the UK's output and employment in 2021.

Key Figures

Metric Value
Employment Nearly 10,000 jobs supported by video game technology spillovers in the UK.
Output £1.3 billion in total economic output from these spillovers.
GDP Contribution £760 million added to the UK's GDP.
Labour Income £380 million generated in labour income.
Government Revenues £250 million contributed to government revenues.



Employment Impact

Video game technology spillovers supported nearly 10,000 jobs across various sectors in the UK in 2021 in the following areas:

Employment Impact of Video Game Technology Spillovers in the UK (2021)
Sector Jobs Supported
Information Technology 3,000
Business Services 1,560
Energy Extraction 990
Wholesale and Retail 910
Healthcare 450
Machinery Manufacturing 420
Fabricated Metals 310
Finance and Insurance 290
Arts and Entertainment 280
Publishing and Audiovisual 280

Comparative Salaries

The average annual salary for workers directly employed as a result of video game technology spillovers was approximately £42,990. This is about 25% higher than the average annual salary of a UK worker, which stands at £34,280.

Games Spillover in Nordic Countries

The report also looked at the impact of video games technology in Nordic Countries. These countries were Denmark, Finland, Norway, and Sweden

Key Figures

  • Employment: Video game technology spillovers supported over 5,300 jobs across Denmark, Finland, Norway, and Sweden.
  • Output: The total economic output from these spillovers was approximately £1.3 billion.
  • GDP Contribution: The spillovers added around £890 million to the combined GDP of these countries.
  • Labour Income: The spillovers generated £260 million in labour income.
  • Government Revenues: The activities supported by these spillovers contributed £320 million to government revenues.

Country-Specific Impact

Denmark

  • Output: £190 million
  • GDP Contribution: £120 million
  • Employment: 1,100 jobs
  • Labour Income: £50 million
  • Government Revenues: £40 million

Finland

  • Output: £130 million
  • GDP Contribution: £60 million
  • Employment: 890 jobs
  • Labour Income: £30 million
  • Government Revenues: £30 million

Norway

  • Output: £700 million
  • GDP Contribution: £570 million
  • Employment: 1,670 jobs
  • Labour Income: £100 million
  • Government Revenues: £180 million

Sweden

  • Output: £270 million
  • GDP Contribution: £140 million
  • Employment: 1,710 jobs
  • Labour Income: £80 million
  • Government Revenues: £70 million

Examples of Video Game Technology Spillovers

The report gave examples of video game technologies in use in other sectors. These include:

Healthcare

Beyond VR simulations, healthcare benefits from various game-based technologies:

  • AR Applications: AR assists healthcare workers in locating veins and planning surgical procedures by overlaying digital images onto the real world, improving accuracy and efficiency.
  • Haptic Technology: FundamentalVR’s HapticVR technology provides life-like surgical training using haptic gloves and controllers. This platform has been deployed by institutions like St. George’s Hospital and the Houston Methodist Institute, offering a realistic training environment for medical professionals.
  • Patient Care: VR technologies like RelieVRx, developed by AppliedVR, aid in chronic pain management by employing cognitive behavioural therapy principles, significantly reducing pain for users in clinical trials.
  • Pharmaceutical Development: 4Sight by C4X Discovery uses Unreal Engine to visualise molecular data in a VR space, aiding in drug discovery and development. This technology enhances scientists' ability to interact with complex data and has been instrumental in projects like the development of a COVID-19 vaccine.


Wholesale and Retail

Retailers leverage AR to enhance customer experiences:

  • "Try-Before-You-Buy": AR applications allow customers to virtually try products before purchasing, improving customer satisfaction and engagement. This technology enables users to visualise how products like furniture or clothing will look in their homes or on them before making a purchase.


Machinery Manufacturing

Game technologies enhance manufacturing processes:

  • Digital Designs and Simulations: Tools like Unity’s ArtEngine enable manufacturers to create detailed digital twins of products is a virtual representation of a physical object. For example,. For example, Flokk uses these digital twins to offer customers a realistic visualisation of customisable chair components, improving the online shopping experience and reducing returns.
  • Interactive Product Visualisation: Companies like Autoliv use game engines to create interactive 3D views of automotive safety parts, allowing customers to explore products in detail from multiple angles.


Publishing and Audiovisual

Game engines are sophisticated software platforms that enable the creation of interactive media and advanced visual effects. These engines allow creators to render real-time graphics, simulate physical behaviours, and integrate complex animations seamlessly into digital environments.

  • Visual Effects: Game engines are instrumental in enhancing the production of visual effects (VFX) for television and film. For example, the cinematographer of Disney+’s The Mandalorian praised game engines for their ability to speed up the production process and improve the final product. By providing real-time views of the finished VFX, these engines reduce the need for physical props and on-location shooting, enabling more sustainable and cost-effective productions.
  • Virtual Production: Virtual production refers to the use of game engines to create dynamic, photo-real digital landscapes that can be displayed in real-time during filming. This technology allows filmmakers to see and interact with visual effects directly in-camera, rather than adding them in post-production. Studios like Industrial Light & Magic and Film Soho are leading the way in this field, using game engines to enhance the production of films and TV shows such as "Thor: Love and Thunder" and "Rogue One: A Star Wars Story". By integrating these effects during the filming process, virtual production allows for greater creative flexibility, improved efficiency, and a more immersive experience for actors and directors on set.


Aerospace and Marine

These industries utilise game technology for simulations and training modules:

  • VR Training: Companies like Neptune Energy use VR applications for offshore worker training, allowing them to interact with realistic 3D models of platforms from onshore. This reduces the need for travel, lowers costs, and enhances safety.
  • Digital Twins: Equinor employs digital twin solutions to navigate installations and collaborate in real-time, improving project development and operational efficiency. By using these digital replicas, Equinor can better manage complex projects, predict potential issues, and streamline operations across their installations.