Category: Project & Production Management

#cloud, Bandwidth, Collaboration, Content Delivery Networks, Digital Platforms, Golf, Learning, Mentoring, Project & Production Management, publishing, Sports, Streaming, Teamwork, Technology

Golf Broadcasting & Streaming: Cloud Link, Shot link, Trackman, AI

The world of professional golf broadcasting has been transformed by cloud linking technology in recent years. This technology allows broadcasters to manage and distribute content over the internet, leveraging the scalability and flexibility of cloud computing to reach a global audience.

One of the most significant benefits of cloud linking in golf broadcasting is the ability to live stream tournaments to a global audience. Rather than relying on traditional broadcasting methods that require expensive equipment and infrastructure, cloud linking allows broadcasters to distribute their content over the internet using cloud-based platforms. This allows fans who are unable to attend the event in person to watch the action live from anywhere in the world.

In addition to live streaming, cloud linking provides broadcasters with the ability to offer on-demand video content, including highlights, replays, and analysis. This content can be made available via a variety of platforms, including websites, mobile apps, and social media. This allows fans to engage with the content on their own terms, whether they are watching on a desktop computer or on their mobile device.

Cloud linking can also help streamline the broadcasting workflow by automating tasks such as video transcoding, content management, and distribution. This can save time and improve the efficiency of operations. Rather than spending time on manual tasks, broadcasters can focus on creating high-quality content that engages their audience.

One of the key advantages of cloud linking is the ability to access real-time analytics that provide insights into how content is being consumed. This can help broadcasters make informed decisions about how to optimize their broadcasting strategy. For example, if analytics show that a particular type of content is resonating with viewers, broadcasters can focus on creating more of that type of content.

Finally, cloud linking can help broadcasters integrate their content with a content delivery network (CDN), which can improve the speed and reliability of content delivery. This is particularly important for live streaming, where delays or buffering can significantly impact the viewer experience. By leveraging a CDN, broadcasters can ensure that their content is delivered quickly and reliably to viewers around the world.

Cloud linking technology has revolutionized the world of professional golf broadcasting. By leveraging the scalability and flexibility of cloud computing, broadcasters can reach a global audience with high-quality content that engages fans and provides valuable insights into how that content is being consumed. As the technology continues to evolve, we can expect to see even more innovative uses of cloud linking in the world of golf broadcasting in the years to come.

Ok….how does Cloudlink Integrate with ShotLink & Trackman?

CloudLink is a cloud-based platform that integrates with ShotLink and TrackMan, two popular sports data tracking systems used in golf. Here’s how CloudLink works with these systems:

1. ShotLink is a data tracking system used in professional golf tournaments. It uses a network of sensors and cameras to track the location and movement of golf balls, as well as the position of players on the course. This data is then used to provide real-time scoring updates and other statistics to viewers.

CloudLink can integrate with ShotLink by accessing the data collected by the system and providing additional analysis and visualization tools. For example, CloudLink can use AI-powered algorithms to analyze the data and generate insights into player performance, such as driving accuracy or putting success rates. These insights can then be shared with viewers during live broadcasts or through online platforms.

2. TrackMan is a sports data tracking system that uses radar technology to track the flight of golf balls, as well as other sports equipment such as baseballs and tennis balls. It is used by golf coaches and players to analyze swings and improve performance.

CloudLink can integrate with TrackMan by accessing the data collected by the system and providing additional analysis and visualization tools. For example, CloudLink can use AI-powered algorithms to analyze swing data and identify areas where a player can improve their technique. These insights can then be shared with coaches and athletes through online platforms, allowing them to make data-driven decisions and improve their performance.

CloudLink can enhance the capabilities of ShotLink and TrackMan by providing additional analysis and visualization tools. By integrating with these systems, CloudLink can provide more comprehensive insights into player performance and create a more engaging and informative viewing experience for golf fans.

Soooo, AI integrates with Cloudlink, but how does that work with sports content (golf focused for the purpose of this example)?

AI (Artificial Intelligence) is being utilized in sports broadcasts for both live and pre-recorded events in various ways, some of which are:

1. Automated camera systems: AI-powered cameras are being used to capture live sports events without human intervention. These cameras can follow the action and track the movement of players in real-time, resulting in a more dynamic and immersive viewing experience.

2. Real-time data analysis: AI is being used to analyze real-time data from sensors placed on players, the ball, and the field. This data can be used to provide insights into player performance, such as speed, distance covered, and heart rate, which can be displayed on-screen during live broadcasts.

3. Automated highlights generation: AI is being used to automatically generate highlights of key moments during a game or event. The AI algorithm can identify moments based on factors such as crowd noise, player movements, and score changes and create short video clips of those moments, which can be shared on social media or broadcast during live events.

4. Personalized content recommendations: AI is being used to provide personalized content recommendations to viewers based on their viewing history. This technology can identify the sports and teams that a viewer is interested in and recommend relevant content, such as pre-recorded matches or highlights.

5. Virtual and augmented reality: AI is being used to create virtual and augmented reality experiences for sports viewers. This technology can create immersive experiences, such as 360-degree views of the stadium or interactive replays that allow viewers to explore a play from different angles.

Overall, AI is being used to enhance the viewing experience for sports fans by providing more immersive, personalized, and interactive content.

101, Cameras, Digital Platforms, events, gaming, HLS Streaming, Learning, Mentoring, Project & Production Management, publishing, Quality Control, Social Media, Streaming, Technology

Best Equipment for Live-streaming

Live streaming is an excellent way to connect with your audience in real-time, but to deliver a high-quality stream, you need the right equipment. In this article, we’ll explore the best equipment for live streaming and how to choose the right gear for your needs.

1. Camera: The camera is the most important piece of equipment for live streaming. A high-quality camera can help ensure that your stream looks professional and polished. Consider a camera with at least 1080p resolution and a wide-angle lens for capturing a larger field of view. Popular options include the Canon XF405 and the Sony PXW-Z90V.  Also consider:  Panasonic AG-CX350, Blackmagic Design Pocket Cinema Camera 6K, Nikon Z6 II, Sony a7 III, or the Canon EOS C200.

2. Microphone: A good microphone is essential for delivering high-quality audio during a live stream. A directional microphone is ideal for live streaming as it can help reduce background noise and capture clear audio. Consider a condenser microphone like the Blue Yeti or the Rode NT-USB for high-quality sound.  Also consider:  Shure SM7B, Audio-Technica AT4053b, Rode VideoMic Pro+,  Sennheiser MKE 600, and the  Neumann TLM 103.

3. Lighting: Proper lighting is essential for creating a professional-looking live stream. Consider using softbox lights or ring lights to create a well-lit environment. If you’re on a budget, natural lighting can work well too.  Also consider:  Godox SL-60W, Aputure AL-MX, Litra Pro, Westcott Flex Cine RGBW Mat, and the Nanlite Forza 60B.

4. Computer: Your computer is the backbone of your live stream setup. A powerful computer with a fast processor and plenty of RAM is essential for streaming high-quality video. Consider a computer with an Intel Core i7 processor and at least 16GB of RAM.  Also consider:  Apple MacBook Pro (M1), ASUS ROG Strix G15, Dell XPS 13, HP Spectre x360, and the Lenovo ThinkPad X1 Carbon.

5. Streaming software: To stream your content, you’ll need streaming software. Popular options include OBS Studio and Streamlabs OBS. These software programs allow you to customize your stream and add overlays, graphics, and other elements to enhance your content.  Also consider:  XSplit, Lightstream, vMix, Wirecast, and BeLive.

6. Capture card: If you plan to stream console games, you’ll need a capture card to capture the video output from your console. Popular options include the Elgato Game Capture HD60 S and the AVerMedia Live Gamer Portable 2 Plus.  Also consider:  Blackmagic Design Intensity Pro 4K, Hauppauge HD PVR Rocket, AVerMedia Live Gamer 4K, Elgato Game Capture 4K60 Pro MK.2, or the Magewell Pro Capture Dual HDMI.

7. Internet connection: A fast and stable internet connection is crucial for live streaming. Consider investing in a high-speed internet plan with upload speeds of at least 5 Mbps.  Who to consider:  AT&T Fiber, Google Fiber, Verizon Fios, Xfinity Gigabit Pro, and CenturyLink Fiber.

8. Tripod or mount: To keep your camera steady, you’ll need a tripod or a mount. Consider a tripod with a fluid head for smooth movement and easy adjustments.  Consider:  Manfrotto 504X Fluid Video Head & Aluminum Tripod System, Gitzo GT5563GS Systematic Series 5 Systematic Tripod, Sachtler ACE XL Tripod System with CF Legs & Mid-Level Spreader, Benro BV10H Pro Video Tripod Kit, Induro Alloy 8M AT214 Tripod with PHQ1 5-Way Panhead, Davis & Sanford PROVISTA100 Provista Tripod with FM18 Head, and Vinten V8AS-CP2F Vision Pozi-Loc Tripod System.

The right equipment is essential for delivering a high-quality live stream. From the camera to the internet connection, each piece of equipment plays a crucial role in creating a professional-looking and engaging live stream. Consider your needs and budget when choosing gear, and don’t be afraid to invest in high-quality equipment to deliver the best possible experience to your audience.

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101, Best Practices, Editing, Mentoring, Project & Production Management, Technology

What Is Forking Edit Material?

Sounds like I’m trying to avoid cursing – right? Wellllll in a very adjacent way, I may be, but that’s not what I’m talking about.

Forking is a term used in video editing that refers to creating multiple versions or copies of a project or sequence as a way to save different versions of the same information. This is typically done to give editors the flexibility to experiment with different approaches to a project without losing any of their original work.

When forking information, an editor will create a new sequence or project that is a copy of the original. This allows them to make changes to the copy without affecting the original. They can then experiment with different edits, transitions, and effects in the copy, and compare the results to the original to see which approach works best.

Forking can also be used as a way to save different versions of a project at different stages of the editing process. For example, an editor may create a fork of a project when they are halfway through the editing process, and then create another fork when they are close to completing the project. This allows them to go back to earlier versions of the project if they need to make changes or try a different approach.

By forking information, editors can save time and avoid the risk of losing their work. They can experiment with different approaches to a project without affecting the original, and keep multiple versions of a project at different stages of the editing process. This can be particularly useful when working on complex projects with many different elements that need to be coordinated and integrated into the final product.

Okkkk. How do you successfully fork a project?

Since the Fork copy is often used for making changes or testing new edits without affecting the original project.

To successfully and efficiently perform forking in video editing, there are a few best practices to keep in mind:

  1. Choose the right video editing software: There are many video editing software tools available, such as Adobe Premiere Pro, Final Cut Pro, and DaVinci Resolve. Choose the software that best fits your needs and has the features you require.
  2. Keep forking to a minimum: While forking can be useful, it can also lead to confusion and version control issues. Only fork when necessary, and try to keep the number of forks to a minimum.
  3. Keep forks up-to-date: If you do create a fork, it’s important to keep it up-to-date with the original video project. This ensures that any changes made to the original video are reflected in the fork.
  4. Use duplicate sequences: Instead of forking, consider using duplicate sequences to make changes to your video project. Duplicate sequences allow you to work on a separate copy of the project without creating a new project file.
  5. Collaborate effectively: If you’re working with others on a forked video project, make sure you’re collaborating effectively. Use tools like shared project files and version control to ensure that changes are properly reviewed and tested before being merged back into the main project.

By following these best practices, forking can be a powerful tool for video editing. It allows editors to experiment with new edits and make changes without affecting the original project, while still maintaining an up-to-date copy of the project.

If you’d like more information, please reach out.

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101, Editing, events, Learning, Mentoring, Project & Production Management, Social Media, Technology, Training

UGC – What Is it? Why Is It Important?

What is UGC?

User-generated content (UGC): This is content that is created by users or fans of a particular brand or product, often shared on social media or other online platforms. UGC can include photos, videos, reviews, and other types of content that are created by consumers rather than professionals.

Why Is UGC Important?

UGC is a powerful tool for businesses and content creators looking to engage with their audience and create authentic content. Editing UGC can be a bit different than editing other types of footage, as the footage is often shot on a mobile device and may not be of professional quality. However, with the right approach, UGC can be edited into a compelling final product.

Here are some steps involved in the UGC editing process:

1. Gathering footage: The first step in editing UGC is to gather the footage from your audience. This could involve asking your followers to submit videos or photos that relate to a particular theme or topic.

2. Reviewing footage: Once you have gathered the footage, you will need to review it to identify the best clips to use in your final edit. This could include footage that is well-shot and on-topic, as well as footage that evokes a strong emotional response.

3. Organizing footage: Once you have identified the best clips, you will need to organize them in a way that tells a compelling story. This could involve creating a rough storyboard or timeline to map out the flow of the video.

4. Enhancing footage: Depending on the quality of the footage, you may need to enhance it to improve its visual quality. This could include color correction, noise reduction, or other techniques to improve the look of the footage.

5. Adding music and sound effects: Once you have organized and enhanced the footage, you can add music and sound effects to create a more immersive viewing experience. This could include selecting music that complements the mood and tone of the video, as well as sound effects that add texture and depth.

6. Finalizing the edit: Once the editing process is complete, the final product is reviewed and approved by the creative team. Any necessary changes are made, and the final edit is exported for distribution.

Editing UGC can be a powerful way to engage with your audience and create authentic content that resonates with viewers. By gathering, reviewing, and organizing footage, enhancing it with music and sound effects, and finalizing the edit, you can create a compelling final product that showcases the best of what your audience has to offer.

101, Best Practices, Collaboration, Digital Platforms, Learning, Mentoring, Project & Production Management, Sports, Streaming, Technology

101: Troubleshooting SCTE-35 DAI A Quick Guide

Sometimes things just don’t work. You’ve rebooted, run reports, and you just need to pause. Here are some steps to troubleshoot SCTE-35 DAI issues:

1. Check for SCTE-35 markers: The first step in troubleshooting SCTE-35 DAI issues is to check if the SCTE-35 markers are being inserted into the video stream correctly. You can use a tool like SCTE-35 Analyzer to check if the markers are being sent at the appropriate times and if their contents are correct.

2. Check your ad server: If the SCTE-35 markers are being sent correctly, the next step is to check your ad server. Ensure that the ad server is sending ad inventory to the video player at the appropriate times and that the ad creative is correct.

3. Check your video player: If the ad server is sending ad inventory correctly, the issue may be with your video player. Ensure that your video player is configured correctly to receive SCTE-35 markers and that it is capable of processing them correctly. Check the video player logs for any errors or warnings related to SCTE-35 processing.

4. Check for network issues: If the SCTE-35 markers, ad server, and video player are all working correctly, but the ads are still not showing up, there may be a network issue. Check for any network issues that may be preventing the video player from receiving the ad inventory correctly.

5. Test with different devices and platforms: If the issue is only occurring on certain devices or platforms, test with different devices and platforms to identify if it is a device-specific issue.

6. Contact your ad server or video player provider: If the above steps do not resolve the issue, contact your ad server or video player provider for further assistance. They may be able to provide more targeted troubleshooting steps or identify any issues specific to their platform.

101, Best Practices, Coding, Content Delivery Networks, Digital Platforms, HLS Streaming, Project & Production Management, Streaming, Technology

101: What is ESAM Scripting for YouTube & SCTE DAI?

First, what is SCTE? (pronounced scut-e). The Society of Cable Telecommunications Engineers (SCTE) is a professional association that offers education, certification, and standards for the telecommunications industry. SCTE serves as a technical and applied science leader, providing training and certification programs in broadband, cable networks, and digital video. It has a diverse membership of professionals, including engineers and technicians, who work in the cable and telecommunications industries.

Next, what is ESAM? ESAM stands for Event Signaling and Management. It is a protocol used in cable networks to provide advanced notification and management of network events. ESAM allows for the delivery of messages that can be used to signal events such as program start and end times, emergency alerts, and other network events. It is an important component of the CableLabs Enhanced Content Specification, which is a set of technical specifications used in digital TV networks. ESAM is designed to enhance the functionality and interoperability of networks, improving the viewing experience for subscribers.

ESAM scripting for SCTE:

1. Identify the video content that needs to be marked up with SCTE markers. These could be ad breaks, chapter markers, or other significant events in the video.

2. Use an ESAM editor tool to create the ESAM script. There are several tools available, such as ESAM Creator and ESAM Builder. These tools allow you to create, edit, and validate the ESAM script.

3. Define the SCTE markers in the ESAM script. Each marker should include the timecode, duration, and type of event. For example, an ad break marker could be defined as a “cue-in” event with a duration of 30 seconds.

4. Validate the ESAM script to ensure that it is compliant with the SCTE specification. Use the ESAM editor tool to run the validation process and check for any errors or warnings.

5. Save the ESAM script and upload it to your YouTube account. You can do this by selecting the video content in your YouTube Studio dashboard, navigating to the “Advanced” tab, and uploading the ESAM script in the “Content ID” section.

6. Review the video content to ensure that the SCTE markers are working correctly. You can use the YouTube player to test the markers and make any necessary adjustments to the ESAM script.

By following these steps, you can create an ESAM script for YouTube SCTE that will help you manage and monetize your video content more effectively.

An ESAM script is an XML-based file that contains information about events or markers that occur in video content. These markers can be used for a variety of purposes, such as indicating ad breaks, chapter markers, or other significant events in the video.

Here is an example of an ESAM script for a dynamic commercial SCTE marker in XML format:

“`xml
<?xml version=”1.0″ encoding=”UTF-8″?>
<ESAM xmlns=”urn:ietf:params:xml:ns:esam:1.0″>
<EventSignal Time=”00:05:00.000″ Duration=”00:00:30.000″ Type=”Commercial”>
<Metadata>
<MetadataItem Name=”AdType”>Dynamic</MetadataItem>
<MetadataItem Name=”AdID”>1234</MetadataItem>
<MetadataItem Name=”AdTitle”>Example Ad</MetadataItem>
<MetadataItem Name=”Advertiser”>Acme Corp</MetadataItem>
</Metadata>
</EventSignal>
</ESAM>
“`

In this example, the ESAM script includes a “Commercial” event signal that occurs at the 5-minute mark of the video and lasts for 30 seconds. The metadata associated with the event signal includes information about the ad type, ID, title, and advertiser.

By using ESAM scripts like this one, video content creators and distributors can manage and monetize their content more effectively, while providing a better experience for viewers.

More scripting tomorrow…. stay tuned!

Employment, Golf, Life Choices, Mentoring, Project & Production Management, Social Media

Broadcasting from: Baltusrol Golf Course, Springfield, NJ

The US Open golf tournament has been held at Baltusrol Golf Club in Springfield, New Jersey, on seven occasions. Here is the list of years, winners, and their scores:

1. 1903 – Willie Anderson (307)
2. 1915 – Jerome Travers (297)
3. 1936 – Tony Manero (282)
4. 1954 – Ed Furgol (284)
5. 1967 – Jack Nicklaus (275)
6. 1980 – Jack Nicklaus (272)
7. 1993 – Lee Janzen (272)

ABC Network has covered several golf events at Baltusrol Golf Club in Springfield, New Jersey, including the US Open and PGA Championship tournaments. Here is a list of the events, winners, and some additional details:

1. 1980 US Open: Jack Nicklaus won his fourth US Open Championship, shooting a final round of 68 to finish at 8-under-par for the tournament.

2. 1985 US Women’s Open: Kathy Baker won her only major championship, shooting a final round of 68 to finish at 4-under-par for the tournament.

3. 1993 PGA Championship: Paul Azinger won his first and only major championship, shooting a final round of 68 to finish at 8-under-par for the tournament.

4. 2005 PGA Championship: Phil Mickelson won his second major championship, shooting a final round of 72 to finish at 4-under-par for the tournament.

5. 2016 PGA Championship: Jimmy Walker won his first major championship, shooting a final round of 67 to finish at 14-under-par for the tournament.

ABC Network provided comprehensive coverage of these events, with experienced broadcasters and producers bringing the action to viewers around the world. Some of the notable names on the broadcast team included Jim McKay, Chris Schenkel, Jack Whitaker, and Mike Tirico. The production was led by ABC Sports Executive Producer Roone Arledge, and the Director of the broadcast was Craig Janoff.

Overall, these events produced some thrilling golf and unforgettable moments, making Baltusrol Golf Club a true showcase for the sport.

I was the Production & Technical Assistant for the 1993 event held at Baltusrol Golf Club in Springfield, New Jersey, from August 12-15, 1993. It was an exciting event, with some of the best golfers in the world competing for the championship title.

As a Production Assistant, my role was to assist the Production & Technical Manager in various aspects of the production. This included coordinating logistics, setting up equipment, and ensuring that everything ran smoothly throughout the event.

The 1993 PGA Championship was covered by ABC Network, with a team of talented broadcasters and producers bringing the action to viewers around the world.

Paul Azinger emerged as the winner of the tournament, shooting a final round of 68 to finish at 8-under-par for the tournament. It was his first and only major championship victory, and it was a moment that I will never forget. The excitement and energy of the event were palpable, and it was a privilege to be a part of such an incredible production.

Overall, the 1993 PGA Championship was a tremendous success, and I was proud to have played a small role in making it happen.

What are you’re experiences? Please share!

101, Career, Charity and Giving, Collaboration, events, Golf, Life Choices, Mentoring, Moving Forward, Project & Production Management, Sports, Teamwork

LPGA Cognizant Founders’ Cup 2023 ReCap

To my surprise after working the event I actually found a picture of Ashleigh Buhai putting with me in the background as her score bearer (I stood where I wouldn’t be in her putting site-line).

The LPGA’s Cognizant Founders’ Cup was an incredible experience. I was a standard bearer for 2 days, and 3 separate pairings. The Third Round: Ryan O’Toole & Gemma Dryburgh were both spectacular. For the Fourth (Final) Round Pairings I worked with: Yu-Sang Hou & Annie Park, then Ashleigh Buhai & Hae Ran Ryu, I had the opportunity to witness some of the world’s best golfers in action.

The event was held at The Upper Montclair Country Club, in Clifton, NJ. The weather was perfect, and the atmosphere was electric from start to finish. The tournament was played over four days, and the level of competition was intense. The golfers were all focused on winning the tournament, and it was clear that every shot mattered.

As a standard bearer, my job was to carry a sign displaying the players’ scores and walk with them around the golf course. It was an honor to be so close to the action, and I was amazed by the skill and precision of the golfers.

All are/were fantastic players, but Ashleigh Buhai and Hae Ran Ryu both finished in the top 4.  It was a privilege to be a standard bearer for all 6 players.  They were gracious and kind.  I was truly moved at how much time they all gave to the young ladies’ golfing “clinic” held right there on the grounds. 

The event production was well done.   Was it perfect?  – no, there were many pain points, but the attendees did not seem to notice. The organizers had put much effort into making sure that everything ran relatively smoothly, and it showed. The course was in great condition, and the facilities were top-notch. There were plenty of food and drink options available, and the staff were all friendly and helpful.

One of the highlights of the tournament was the Pro-Am event, which took place on the Wednesday before the tournament started. This gave amateur players the chance to play with the professionals and experience what it’s like to compete at the highest level. It was great to see so many people getting involved and enjoying the game of golf.

Another highlight was the closing ceremony, which of course took place on the final day of the tournament. The atmosphere was electric as the golfers made their way to the 18th hole, and the crowd cheered them on every step of the way.

In the end, it was Jin Young Ko who came out on top in a sudden death round with the amazing Minjee Lee. An impressive match-up to say the least.

Ashleigh Buhai finished in third place, and Hae Ran Ryu in fourth, both with strong performances throughout the tournament. Both “burned” many of the hole rims throughout the competition.  Those misses were so so close, it could break your heart.

Overall, the LPGA’s Cognizant Founders Cup was an amazing experience. It was a honor and a privilege to be so close to the action to the end.  I witnessed some of the world’s best golfers live in action. 

Thank you Ladies!

101, AI, Bandwidth, Best Practices, Cameras, Mentoring, Project & Production Management, Streaming, Technology

USFL uses HRP Cameras, Drones, & Helmet Cams

The USFL (United States Football League) was a professional American football league that operated from 1983 to 1987. It was created to compete with the National Football League (NFL) during the spring and summer months.

The HRP (High-Resolution Panoramic) model is a type of camera that captures high-resolution panoramic images. It uses multiple cameras to capture a wide-angle view of a scene and then stitches the images together to create a seamless panoramic image.

Drones are unmanned aerial vehicles that can be used for a variety of purposes, including aerial photography and videography. They are equipped with cameras that can capture high-quality images and video footage from unique perspectives.

HelmetCams, also known as action cameras, are small cameras that can be attached to a helmet or other equipment to capture first-person point-of-view footage. They are often used in action sports such as snowboarding, skateboarding, and mountain biking.

Overall, these technologies have been used to enhance the viewing experience of sports broadcasts by providing unique and immersive perspectives on the action.

HRP (High-Resolution Panoramic) cameras are a type of camera that captures images with a wide field of view. They use multiple cameras to capture a scene from different angles and then stitch the images together to create a seamless panoramic image.

There are several manufacturers of HRP cameras, including Panoscan, Seitz, and Roundshot. Each manufacturer offers a variety of models with different resolutions and features. For example, the Seitz Roundshot D3 camera has a resolution of up to 80 megapixels and can capture full 360-degree panoramas in just a few seconds.

The process of stitching the images together is typically done using specialized software, such as PTGui or Autopano. These software programs use algorithms to analyze the images and find common features that can be used to align and blend the images together. The software can also correct for any distortion or perspective issues that may occur due to the different angles of the cameras.

Once the images are stitched together, they can be exported as a single panoramic image or as a virtual tour, which allows viewers to navigate through the scene using interactive controls. HRP cameras are often used in applications such as real estate photography, tourism, and virtual reality experiences, television broadcasts.

How is all of this technology used specifically in sports production broadcasts?

HRP cameras, drones, HelmetCams, and other similar technologies are used in sports production broadcasts to provide viewers with immersive and unique perspectives of the action.

HRP cameras are used to capture high-resolution panoramic images of stadiums and arenas, providing viewers with a 360-degree view of the venue. These images can be used for pre-game introductions, establishing shots, and post-game analysis. They can also be used to create virtual tours of the venue, allowing viewers to explore the stadium or arena in detail.

Drones are used to capture aerial footage of the action, providing viewers with a bird’s-eye view of the game. This footage can be used for replays, establishing shots, and highlights. Drones can also be used to capture footage of the surrounding area, giving viewers a sense of the location and atmosphere of the event.

HelmetCams are used to capture first-person point-of-view footage of athletes, providing viewers with a unique perspective of the action. This footage can be used for replays, highlights, and analysis. HelmetCams are often used in extreme sports such as snowboarding, skiing, and motocross.

Overall, these technologies are used to enhance the viewing experience of sports broadcasts, providing viewers with new and exciting perspectives of the action. The use of these technologies has become increasingly common in recent years, as broadcasters look for new ways to engage viewers and provide a more immersive viewing experience.

#cloud, 101, AI, Bandwidth, Best Practices, Cloud Editing, Cloud Providers, Collaboration, Content Delivery Networks, Digital Platforms, Mentoring, Project & Production Management, publishing, Streaming, Technology, Training

Overview: 30 Cloud Security Companies

Cloud security is a hot topic as streaming, processing, editing in the cloud is growing at a brakefast speed, not to leave out AI learning for meta data, closed captioning, transcribing, and DAI (Dynamic Ad Insertion). Keeping information secure is essential.

Below are 30 cloud security companies and the specific services they provide:

1. Microsoft Azure: Provides cloud security services such as identity and access management, threat protection, and security management.

2. Amazon Web Services (AWS): Offers security services such as identity and access management, data protection, network security, and compliance.

3. Google Cloud Platform (GCP): Provides security services such as identity and access management, data encryption, and threat detection.

4. Palo Alto Networks: Offers cloud security services such as firewalls, intrusion detection and prevention, and threat intelligence.

5. Symantec: Provides cloud security services such as data protection, threat detection, and compliance.

6. IBM Cloud: Offers security services such as access management, data protection, and threat intelligence.

7. Cisco Cloud Security: Provides cloud security services such as firewalls, intrusion detection and prevention, and threat intelligence.

8. McAfee: Offers cloud security services such as data protection, threat detection, and compliance.

9. CrowdStrike: Provides cloud security services such as endpoint protection, threat detection, and incident response.

10. Akamai Technologies: Offers cloud security services such as web application firewall, bot management, and DDoS protection.

11. Fortinet: Provides cloud security services such as firewalls, intrusion detection and prevention, and threat intelligence.

12. Check Point Software: Offers cloud security services such as firewalls, intrusion detection and prevention, and threat intelligence.

13. Trend Micro: Provides cloud security services such as data protection, threat detection, and compliance.

14. F5 Networks: Offers cloud security services such as web application firewall, bot management, and DDoS protection.

15. Zscaler: Provides cloud security services such as web security, DNS security, and cloud firewall.

16. Cloudflare: Offers cloud security services such as DDoS protection, web application firewall, and bot management.

17. Sophos: Provides cloud security services such as endpoint protection, email security, and web security.

18. Rapid7: Offers cloud security services such as vulnerability management, threat detection, and incident response.

19. Tenable: Provides cloud security services such as vulnerability management, threat detection, and compliance.

20. Alert Logic: Offers cloud security services such as intrusion detection and prevention, log management, and compliance.

21. Qualys: Provides cloud security services such as vulnerability management, threat detection, and compliance.

22. Carbon Black: Offers cloud security services such as endpoint protection, threat detection, and incident response.

23. Netskope: Provides cloud security services such as data loss prevention, web security, and cloud access security broker.

24. Bitdefender: Offers cloud security services such as endpoint protection, email security, and cloud security.

25. Barracuda Networks: Provides cloud security services such as email security, web security, and cloud security.

26. CipherCloud: Offers cloud security services such as data protection, threat detection, and compliance.

27. FireEye: Provides cloud security services such as threat intelligence, incident response, and forensics.

28. Imperva: Offers cloud security services such as web application firewall, bot management, and DDoS protection.

29. Qualys: Provides cloud security services such as vulnerability management, threat detection, and compliance.

30. Skyhigh Networks: Offers cloud security services such as cloud access security broker, data protection, and threat detection.

Overall, these cloud security companies provide a range of cloud security services, including identity and access management, data protection, threat detection, and compliance.