Category: Mentoring

101, Learning, Mentoring, SME, Technology

Become a SCTE SME

Where to start?

Do you want to become a SCTE (Society of Cable Telecommunications Engineers)  subject matter expert (SME)?  You can take the following steps:


1. Gain a foundational understanding of SCTE technologies: Start by learning the basics of SCTE technologies, including SCTE-35, SCTE-104, and SCTE-224. This can be done by reading articles, whitepapers, and technical documentation available on the SCTE website and other industry resources.

2. Attend SCTE training courses: SCTE offers a range of training courses on various SCTE technologies, including SCTE-35, SCTE-104, and SCTE-224. These courses cover the fundamentals of the technology, best practices, and practical applications. Attending these courses can help you gain a deeper understanding of SCTE technologies and prepare you for certification.

3. Pursue SCTE certification: SCTE offers certification programs for various SCTE technologies, including SCTE-35 and SCTE-104. These programs are designed to validate the knowledge and skills of professionals working with SCTE technologies. Pursuing certification can help you establish your expertise in SCTE technologies and advance your career.

4. Participate in SCTE events and communities: SCTE hosts various events, including conferences, webinars, and workshops, where professionals can learn about the latest developments in SCTE technologies and network with other experts. Additionally, SCTE has a community forum where professionals can ask questions, share knowledge, and collaborate with other experts in the field.

By taking these steps, you can become a subject matter expert in SCTE technologies. It’s also important to stay up-to-date with the latest developments in the field by reading industry publications, attending conferences, and participating in online communities.

Need more info?  Sure! 

Some of the latest developments in the field of SCTE include advancements in DOCSIS 4.0 technology, the deployment of 5G networks, the adoption of cloud-based technologies, and the integration of artificial intelligence and machine learning in cable networks. Industry publications like Broadband Library and Cablefax, as well as conferences like SCTE Cable-Tec Expo and online communities like SCTE Connect, are great resources to stay up-to-date on these developments.

AI, Collaboration, events, gaming, Mentoring, Sports, Teamwork

From the Sidelines to the Big Screen: How Venues are Using Projection Technology to Enhance Sports Events

Venues use projection technology to elevate the game-day experiences in several ways, including:

  • Projection Mapping: Is used to create immersive experiences for fans. Projection mapping involves projecting images and videos onto surfaces such as walls, floors, or ceilings to create the illusion of movement or depth. This technology can be used to create dynamic displays during pre-game introductions, halftime shows, or other events.
  • Digital Signage: Venues can use digital signage to display scores, stats, and other information to fans. Digital signage allows venues to update information in real-time and can be customized to display different types of content depending on the event. This technology can also be used to display advertisements or promotions to fans.
  • Interactive Displays: Venues can use interactive displays to engage fans and provide them with a more immersive experience. Interactive displays can include touchscreens, virtual reality experiences, and augmented reality experiences. These displays can be used to provide fans with information about the game, players, or venue, or they can be used to create interactive games or challenges for fans to participate in.
  • Light Shows: Venues can use projection technology to create dynamic light shows during pre-game introductions or halftime shows. This technology can be used to project images and videos onto the playing surface, creating a visually stunning display for fans.

Some other ways that venues use projection technology to elevate the game-day experience include:

  • Customizable lighting effects that change based on the game’s progress or score
  • 3D projection mapping to create a fully immersive experience
  • Interactive floor projections that respond to fans’ movements
  • Live streaming of the game on large screens
  • Use of holographic technology to bring players or mascots to life
  • Digital overlays on the playing surface to create interactive games or challenges
  • Use of LED lighting for dynamic and colorful displays
  • Real-time social media feeds displayed on screens throughout the venue
  • Use of augmented reality technology to provide fans with additional information or experiences
  • Projection of “fan cams” to engage the crowd and create a more interactive experience
  • Use of projection technology to create realistic simulations of the game or venue
  • Use of projection technology to create stunning visual effects during pre-game introductions or halftime shows
  • Projection of sponsor logos or advertisements in creative ways
  • Use of projection technology to create interactive photo booths or selfie stations for fans
  • Use of projection technology to create unique and immersive soundscapes
  • Projection of interactive games or challenges onto the walls or ceilings of the venue
  • Use of projection technology to create dynamic and engaging pre-game videos or introductions
  • Use of projection technology to create custom animations or graphics for the venue or team
  • Integration of projection technology with live music performances or concerts
  • Use of projection technology to create virtual experiences for fans who can’t attend the game in person.

Overall, the use of projection technology in venues can enhance the game-day experience for fans, providing them with new and exciting ways to engage with the game and the venue. With the continued development of projection technology, the possibilities for creating unique and immersive experiences for fans are endless.

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, Coding, Collaboration, Content Delivery Networks, Digital Platforms, Learning, Mentoring, Streaming, Technology

101: How to Create SCTE 35 & 224 Markers for HLS, JSON, XML, Python, JavaScript, & Ruby

To create SCTE markers for DAI (Dynamic Ad Insertion) for live streaming, you can use a variety of scripting languages and tools. Here are a few examples:

SCTE-35 is a standard for signaling ad insertion opportunities in live streams. It uses MPEG-2 Transport Stream packets to insert “cue” messages that indicate the start and end of ad breaks. To create SCTE-35 markers, you can use tools like SCTE-35 Commander or SCTE-35 Injector. These tools allow you to create SCTE-35 messages and insert them into your live stream.

1. HLS: HLS (HTTP Live Streaming) is a streaming protocol that allows for dynamic ad insertion in live streams. To create SCTE markers for HLS, you can use the EXT-X-CUE-OUT and EXT-X-CUE-IN tags. These tags indicate the start and end of an ad break and can be used to trigger the insertion of ad content. Here is an example of an HLS manifest with SCTE markers:

“`m3u8
#EXTM3U
#EXT-X-VERSION:3
#EXT-X-TARGETDURATION:10
#EXT-X-MEDIA-SEQUENCE:0
#EXT-X-CUE-OUT:DURATION=30
#EXTINF:10.0,
https://example.com/live/stream_720p/chunk_00001.ts
#EXTINF:10.0,
https://example.com/live/stream_720p/chunk_00002.ts
#EXT-X-CUE-IN
#EXTINF:10.0,
https://example.com/live/ad_720p/chunk_00001.ts
#EXTINF:10.0,
https://example.com/live/ad_720p/chunk_00002.ts
#EXT-X-CUE-OUT:DURATION=30
#EXTINF:10.0,
https://example.com/live/stream_720p/chunk_00003.ts
#EXTINF:10.0,
https://example.com/live/stream_720p/chunk_00004.ts
#EXT-X-CUE-IN
#EXTINF:10.0,
https://example.com/live/ad_720p/chunk_00003.ts
#EXTINF:10.0,
https://example.com/live/ad_720p/chunk_00004.ts
#EXT-X-ENDLIST
“`

In this example, the SCTE markers are represented by the EXT-X-CUE-OUT and EXT-X-CUE-IN tags. These tags indicate the start and end of an ad break, and the ad content is inserted between them.

2. JSON: SCTE-224 is a standard for signaling ad breaks in live streams using JSON metadata. To create SCTE markers using SCTE-224, you can use tools like the SCTE-224 Event Scheduler or the SCTE-224 Event Injector. These tools allow you to create JSON metadata that signals the start and end of ad breaks in your live stream.

3. XML: Like JSON, SCTE-224 also supports XML metadata for signaling ad breaks in live streams. You can use XML tags to specify the start and end of ad breaks and other metadata. For example:

“`xml
<ADI>
<Asset>
<Metadata>
<SCTE35>
<SpliceInfoSection>
<SpliceInsert>
<SpliceEvent>
<SpliceEventId>12345</SpliceEventId>
<SpliceOutOfNetworkIndicator>false</SpliceOutOfNetworkIndicator>
<SpliceImmediateFlag>true</SpliceImmediateFlag>
<BreakDuration>30000</BreakDuration>
</SpliceEvent>
</SpliceInsert>
</SpliceInfoSection>
</SCTE35>
</Metadata>
</Asset>
</ADI>
“`

In this example, an SCTE-35 splice event is specified using XML tags within an Asset Description and Metadata Interface (ADI) file.

4. Python: You can also use Python scripts to generate SCTE-35 messages for DAI. For example, the SCTE-35 Python library allows you to create SCTE-35 messages using Python code. Here’s an example Python script that creates an SCTE-35 message:

“`python
from scte35 import SpliceInfoSection, SpliceInsert

splice_event = SpliceInsert(
splice_event_id=12345,
out_of_network=False,
immediate=True,
break_duration=30
)

splice_info_section = SpliceInfoSection(
splice_insert=splice_event
)

scte35_message = splice_info_section.to_bytes()
“`

This script creates a splice event with ID 12345, a break duration of 30 seconds, and other parameters, and then generates an SCTE-35 message using the scte35 library.

5. JavaScript: If you’re working with web-based live streaming technologies like HLS or DASH, you can use JavaScript to manipulate the manifest files and insert SCTE markers. For example, you could use JavaScript to modify the EXT-X-CUE-OUT and EXT-X-CUE-IN tags in an HLS manifest file to indicate ad breaks.

6. Ruby: Ruby is another scripting language that can be used to generate SCTE-35 messages for DAI. The SCTE35 gem is a Ruby library that allows you to create and parse SCTE-35 messages. Here’s an example Ruby script that creates an SCTE-35 message:

“`ruby
require ‘scte35’

splice_event = SCTE35::SpliceInsert.new(
splice_event_id: 12345,
out_of_network: false,
immediate: true,
break_duration: 30
)

splice_info_section = SCTE35::SpliceInfoSection.new(
splice_insert: splice_event
)

scte35_message = splice_info_section.to_binary_s
“`

This script creates a splice event using the SCTE35 gem, sets its parameters, and generates an SCTE-35 binary message.

Overall, the choice of scripting language and tool depends on the specific requirements of your live streaming setup. These examples show some common options for creating SCTE markers for DAI in live streaming.

101, Content Delivery Networks, Digital Platforms, Mentoring, publishing, SQL, Streaming

Streaming Strategies: 30 Popular Broadcasters -Who Do You Use?

There are several considerations that companies keep in mind when developing streaming strategies.

Some key factors:

•Content: The availability and quality of content is a critical factor in attracting and retaining subscribers. Companies must consider what type of content to offer, including original programming, movies, TV shows, and live events.

•Pricing: Companies must carefully consider their pricing strategy to remain competitive and attract subscribers. They may offer different subscription tiers with varying features and pricing options.

•Distribution: Companies must consider how to distribute their content, whether through their own website or app, through third-party platforms, or through partnerships with other companies.

•User Experience: The user experience is critical in retaining subscribers. Companies must ensure that their streaming service is easy to use, reliable, and offers high-quality video and audio.

•Marketing: Companies must develop effective marketing strategies to promote their streaming service and attract new subscribers. This may include social media advertising, influencer partnerships, or other tactics.

•Technology: Companies must consider the technology required to deliver their streaming service, including video encoding, content delivery networks, and other infrastructure.

•Competition: Companies must keep an eye on the competition and adapt their strategies accordingly. They may need to adjust their pricing, content, or marketing strategies to remain competitive in the market.

30 “Streamers”, and Their Strategies:

1. Netflix – Subscription-based streaming of movies and TV shows

2. Hulu – Subscription-based streaming of TV shows and movies, with live TV options

3. Amazon Prime Video – Subscription-based streaming of movies and TV shows, with additional perks for Amazon Prime members

4. Disney+ – Subscription-based streaming of Disney, Pixar, Marvel, and Star Wars content

5. HBO Max – Subscription-based streaming of HBO and other content, including original programming

6. Apple TV+ – Subscription-based streaming of original programming and movies

7. YouTube TV – Subscription-based streaming of live TV channels

8. Sling TV – Subscription-based streaming of live TV channels

9. FuboTV – Subscription-based streaming of live TV channels, with a focus on sports

10. ESPN+ – Subscription-based streaming of sports events and original programming

11. CBS All Access – Subscription-based streaming of CBS content, including live TV options

12. NBC Universal Peacock – Subscription-based streaming of NBC and Universal content, including live TV options

13. Showtime – Subscription-based streaming of Showtime content, including original programming

14. Starz – Subscription-based streaming of Starz content, including original programming

15. Crunchyroll – Subscription-based streaming of anime and manga

16. Funimation – Subscription-based streaming of anime and manga

17. VRV – Subscription-based streaming of anime, gaming, and other pop culture content

18. Twitch – Free streaming of live gaming and other content, with subscription options for additional perks

19. Mixer – Free streaming of live gaming and other content, with subscription options for additional perks

20. Facebook Watch – Free streaming of original programming and other content

21. Instagram Live – Free streaming of live events and other content

22. Twitter Live – Free streaming of live events and other content

23. Periscope – Free streaming of live events and other content

24. Vimeo – Subscription-based streaming of original programming and other content

25. Dailymotion – Free streaming of user-generated and original programming

26. Kanopy – Free streaming of movies and TV shows, with access through public libraries and universities

27. Crave – Subscription-based streaming of movies and TV shows in Canada

28. BBC iPlayer – Free streaming of BBC content in the UK

29. ITV Hub – Free streaming of ITV content in the UK

30. Sky Go – Subscription-based streaming of Sky content in the UK

These companies are major players in the streaming industry(this is not an exhaustive list), each with their own unique strategies and considerations. They offer a range of content, from movies and TV shows to live events and original programming, and use different pricing models and distribution methods to attract and retain subscribers. User experience, marketing, technology, and competition are all key factors that they must consider when developing their streaming strategies. As the streaming market continues to grow, these companies will need to remain agile and adapt their strategies to remain competitive and meet the changing needs of their audiences.

101, Best Practices, Career, Collaboration, Employment, Life Choices, Mentoring, Moving Forward, Success

Level Up Your Resume: Become An Achiever!

Everyone writes about networking, researching, targeting companies, identifying the position or positions you want, and you should, it’s all important and solid advice, but there is more to the job hunt than that…

It’s not a difficult twist it’s just a shift in how your approach is.

Are you Endlessly sending an updated draft of your resume out for the 50 some-teenth time to the internet void, and that isn’t working?  I have had the same experience.  

Years ago it was easy, make a phone call, or send out a resume, interview, and hired.  Today – ummm not so much.

I had been very “busy” changing up my skills, key words, etc to “match” what the resume machine algorithms have been asked to search for (and will discard if your resume isn’t at least a 70% match).  It’s true, a human will NOT EVER see your resume because there’s a program that automatically eliminates you if you haven’t included the sought after key words.  Even worse, you could be algorithm’d out for 6-12 months for a “bad” resume submission. 

I had received NO answers back aside from the automated “thank you for applying”, with decades of experience in the industry.  Incredibly frustrating!  But, I needed to change the way I worded my resume.  I was being seen as a doer.  Isn’t that good though?  Again….Not so much.  Hiring Managers need to see not only what you’ve done, but what you’ve accomplished.  

I was qualified, I could do the jobs I applied for, even better, I actually WANTED the jobs I applied for, I wasn’t just “looking for work”,  I was looking for what I wanted in my life too.  I’ve been lucky to get to an ebb and flow now.

But, I needed to change the language in my resume to show that I still take / took action and that I’m results-oriented person (an over-utilized phrase x1000 btw).  But, follow a few simple steps to level-up your resume:

1. Focus on your achievements: Instead of just listing your responsibilities, highlight your accomplishments and the results you achieved. Use action verbs to describe your achievements and quantify your accomplishments with numbers and percentages.

2. Use strong, action-oriented language in your resume. Avoid passive voice and use verbs that convey a sense of action and accomplishment.

3. Tailor your language to the job posting: Look at the job posting and use language that aligns with the job requirements. Use similar keywords and phrases that the employer is looking for to convey that you have the skills and experience they are seeking.

4. Highlight your skills and how they have contributed to your accomplishments. Use specific examples to demonstrate how you have used your skills to achieve results.

5. Use bullet points to break up dense paragraphs and make your resume easier to read. Use short, punchy statements that highlight your accomplishments and results.

6. Proofread, Proofread, and Proofread again – did I mention Proofread your resume?  Oh yes I did!  Do this carefully to ensure that your language is clear, concise, and error-free. Make sure that your accomplishments and results are easy to understand and are presented in a way that is easy to read.

Overall, by focusing on your networking, your achievements, using strong language, tailoring your language to the job posting, highlighting your skills, using bullet points, and proofreading your resume, you can change the way you as a person appear to a Hiring Manager.  So make yourself human, because you are human.  Make them know you, even better make them WANT to know YOU!   You are your own business, you don’t have to sell yourself, just show the best version of You that you’ve got!  You’re worth it.

This can help you stand out to potential employers and increase your chances of getting hired.

101, Best Practices, Digital Platforms, gaming, Learning, Mentoring, Streaming

Broadcasting: Mux or Demux? What The Heck Is That About?

In broadcasting, muxing and demuxing are essential processes that allow for the transmission and distribution of audio and video streams.

Muxing, or multiplexing, is the process of combining multiple audio and video streams into a single stream. This combined stream can be transmitted over a network or broadcast through traditional media channels like television or radio. Muxing is commonly used in live streaming, video editing, video conferencing, and IPTV.

A mux works by taking multiple input streams and interleaving them into a single output stream, which can be encoded and transmitted over a network using a specific protocol. The output stream is typically optimized for transmission efficiency, so that it can be transmitted with minimal delay and bandwidth requirements.

10 use cases for a mux:

1. Live streaming: A mux can be used to combine multiple live audio and video feeds into a single stream for real-time broadcast.

2. Video editing: A mux can be used to combine multiple video tracks into a single output file for editing or post-production.

3. Video surveillance: A mux can combine multiple video feeds from surveillance cameras into a single stream for monitoring and recording.

4. IPTV: A mux can be used by IPTV providers to combine multiple TV channels into a single stream for distribution over the internet.

5. VoIP: A mux can be used to combine multiple voice streams into a single output stream for voice over IP (VoIP) applications.

6. Music production: A mux can be used to combine multiple audio tracks into a single output file for music production or mixing.

7. Video conferencing: A mux can be used to combine multiple audio and video feeds from participants in a video conference into a single output stream.

8. Digital signage: A mux can be used to combine multiple video feeds for display on digital signage screens.

9. Sports broadcasting: A mux can be used to combine multiple audio and video feeds from different cameras and microphones at a sports event into a single broadcast stream.

10. Online gaming: A mux can be used to combine multiple audio and video streams from players in an online multiplayer game into a single stream for spectators to watch.

Conversely….

Demuxing, or demultiplexing, is the opposite process of separating the combined stream back into its individual audio and video streams. This allows for the decoding and processing of the individual streams separately. Demuxing is commonly used in media playback, video editing, audio processing, and network monitoring.

A demux works by analyzing the input stream and separating it into its constituent parts based on the underlying format and structure of the stream. The output streams can then be decoded or processed separately using appropriate software or hardware.

10 use cases for demuxing:

1. Media playback: A media player uses a demux to separate the audio and video tracks of a media file, so that they can be decoded and played back separately.

2. Video editing: A demux can be used to separate multiple video tracks from a single media file for editing or post-production.

3. Audio processing: A demux can be used to separate multiple audio tracks from a media file for processing or analysis.

4. Closed captioning: A demux can be used to separate the closed captioning data from a video file, so that it can be displayed separately.

5. Subtitles: A demux can be used to separate the subtitle data from a video file, so that it can be displayed separately.

6. Video transcoding: A demux can be used to separate the audio and video tracks of a media file for transcoding into a different format or resolution.

7. Network monitoring: A demux can be used to analyze network traffic and separate different types of data packets for monitoring or analysis.

8. Digital forensics: A demux can be used to extract individual files or data streams from a larger disk image or data file for forensic analysis.

9. Compression: A demux can be used to separate different data streams for compression or archiving purposes.

10. Streaming: A demux can be used to separate audio and video streams from a network broadcast for playback on different devices, or for further processing and analysis.

Both muxing and demuxing are critical processes in broadcasting that allow for efficient transmission and distribution of audio and video streams. These processes are used in a wide range of applications, from live sports broadcasting to online gaming, and are essential for ensuring high-quality audio and video transmission.

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#cloud, 101, AWS, Digital Platforms, Learning, Mentoring, Streaming, Success, Technology, Training

What is S3? Buckets? SDKs? A Quick Overview

Amazon S3, or Simple Storage Service, is a cloud-based storage service provided by Amazon Web Services (AWS). It allows users to store and retrieve any amount of data from anywhere on the web, making it a popular choice for individuals and businesses alike.

At its core, Amazon S3 is an object storage system. This means that data is stored as objects, rather than in a traditional file hierarchy. Objects can be of any size, from a few bytes to terabytes, and are stored in containers called buckets. Users can create, manage, and delete buckets through the AWS Management Console or with the AWS SDKs.

Oh riiiiight …What are SDKs? 😊

SDK stands for Software Development Kit. It is a collection of software development tools that allow developers to create applications for a specific software package, hardware platform, operating system, or programming language. SDKs usually include libraries, APIs, documentation, and other utilities that help developers to build software applications that integrate with existing systems or platforms.

Now Back to S3…..

One of the key benefits of S3 is its scalability. It can handle an infinite amount of data and can be accessed from anywhere in the world. This is achieved through a distributed architecture, where data is stored across multiple servers and locations. This also means that data is highly available and durable, with multiple levels of redundancy and built-in error correction.

Amazon S3 also offers a range of features for managing data. Users can set up access controls, encryption, and versioning to ensure that their data is secure and accessible only to authorized users. They can also use lifecycle policies to automatically move data to lower-cost storage tiers or delete it after a certain period of time.

Under the hood, S3 uses a combination of technologies to provide its high performance and scalability. It uses a distributed system architecture, with data stored across multiple servers and locations. It also uses a highly optimized network stack, with low-latency connections to AWS services and the internet.

In addition, S3 uses advanced algorithms and caching techniques to optimize data retrieval. For example, it uses parallel processing to retrieve multiple objects at once, and it caches frequently accessed data for faster retrieval times.

Overall, Amazon S3 is a powerful and flexible storage solution that offers a range of features for managing and securing data. It is a popular choice for businesses of all sizes, from startups to large enterprises, and is used for a wide range of applications, from backup and archiving to content delivery and data analytics.

Do you use S3? Comment & Let me know how – it’s free!

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, Collaboration, Content Delivery Networks, Digital Platforms, Learning, Mentoring, Technology, Training

Short Tutorial: UNC Paths in Broadcasting & Digital Streaming

Who May Need Them in Broadcasting & Digital Streaming?

UNC paths are commonly used in broadcasting to facilitate the transfer of large video or audio files between production facilities. This is because broadcasting often involves collaboration between multiple teams and locations, and UNC paths provide a standardized method of accessing shared resources on a network.

In broadcasting, UNC paths may be created by various professionals, including video editors, audio engineers, and IT staff. For example, a video editor may use a UNC path to access a shared folder containing footage that another editor has uploaded from a remote location. Meanwhile, an IT staff member may use a UNC path to connect broadcasting equipment to a shared storage device or backup system.

Overall, UNC paths are an essential tool for broadcasting professionals who need to collaborate on media production across a network.

What’s An UNC Path?

Creating an UNC (Universal Naming Convention) path is a method of identifying a network resource, such as a shared folder or printer, on a computer network. It uses a format that starts with two backslashes followed by the name of the computer and the name of the shared resource.

For Example:

For example, if a computer named “FILESERVER01” has a shared folder named “SharedDocs”, the UNC path to access it would be: \\FILESERVER01\SharedDocs

UNC paths are used when accessing network resources across different operating systems, such as Windows and Linux. They are also used in web addresses to access shared resources using a web browser. 

How-To Create One:

You can input a UNC path in various ways depending on the task you are trying to accomplish. Here are a few examples:

1. To access a shared folder on a network: Open File Explorer and type or paste the UNC path in the address bar at the top of the window. Press Enter to access the shared folder.

2. To map a network drive: Open File Explorer and click on “Map network drive” in the ribbon at the top of the window. In the “Drive” drop-down menu, choose a drive letter to assign to the mapped drive. In the “Folder” field, enter the UNC path of the shared folder you want to map. Click “Finish” to create the mapped network drive.

3. To reference a file in a UNC path in a script or program: Use the UNC path as you would any other file path, but include the double backslash at the beginning. For example, to reference a file named “Data.txt” in a shared folder named “Data” on a computer named “Server1”, the UNC path would be: \\Server1\Data\Data.txt

It’s important to note that UNC paths require proper permissions and authentication to access the shared resources.

Why You Need Them

UNC paths are necessary because they provide a standardized and consistent way of identifying and accessing network resources on a computer network. They allow users to access shared resources from any computer on the network, regardless of the computer’s operating system or location.

Without UNC paths, users would have to manually navigate to the network resource by IP address or hard-coded network path, which can be difficult and error-prone. UNC paths simplify the process by providing a unified naming convention that is easy to remember and use. They also provide security features that limit access to shared resources, ensuring that unauthorized users cannot access sensitive information.

How Do You Use Them? Please Comment.