Panasonic Connect Switchers & Cameras for House of Worship – Videoguys

Panasonic Connect’s church AV solutions are revolutionizing how modern houses of worship engage with their congregations, both in-person and online. By integrating advanced PTZ cameras and the KAIROS live event production switcher, churches can enhance their worship experience, improve live streaming quality, and build stronger community connections.

Enhance Worship Services with Panasonic PTZ Cameras

One of the most impactful ways Panasonic Connect is transforming church AV is through the use of PTZ cameras. These cameras, such as the AW-UE150, provide high-quality, seamless video coverage of services, ensuring that pastors and speakers are clearly visible whether congregants are attending in person or watching via live stream. At Long Hollow Church, the AW-UE150 PTZ camera tracks the pastor’s movements across the stage, delivering crisp, clear images on large IMAG screens inside the church, as well as through live streaming to remote audiences. This creates a highly engaging and immersive experience for worshipers, no matter where they are. The flexibility of PTZ cameras allows churches to provide dynamic visual storytelling, which helps retain viewer attention and makes the service more memorable.

These Panasonic PTZ cameras also enhance the overall quality of in-person services. For instance, the UC4000 models deliver ultra-clear 4K imagery, bringing out rich details and improving visual engagement for both local congregants and online viewers. With high-resolution imagery, churches can create an inviting and immersive worship experience, ensuring that every moment is captured in stunning detail. High-quality visuals not only elevate the service but also help churches reach a wider audience through improved video streaming.

Simplify Church AV Operations with KAIROS Live Event Production Switcher

Another key innovation from Panasonic Connect is the KAIROS live event production switcher, which streamlines AV operations for churches. The KAIROS switcher offers flexible inputs and outputs to manage a variety of production needs, making it a powerful tool for live streaming and in-house displays. At Cottonwood Creek Church, KAIROS supports their mission to engage the community by hosting a wide range of events, from worship services to community gatherings. Its user-friendly interface allows volunteers to handle complex AV operations with ease, reducing the risk of errors and empowering them to contribute to the church’s mission.

KAIROS enhances the overall church experience by simplifying live event production, which is especially useful for houses of worship that rely on volunteers to manage their AV systems. The switcher’s pre-programmed macros enable volunteers to control multiple AV functions with a single click, making it easy to produce professional-grade visuals and sound. This not only improves the efficiency of worship services but also allows churches to host a variety of community events, further strengthening their role as a central hub for local engagement.

Build Community with Panasonic Church AV Solutions

By integrating Panasonic’s PTZ cameras and the KAIROS switcher, churches can go beyond worship services and build strong community connections. High-quality AV systems help houses of worship create an engaging, visually dynamic environment that keeps congregants coming back, whether they attend in person or online. Additionally, Panasonic’s AV solutions empower volunteers, allowing them to contribute to the church’s mission with confidence. This makes it easier for churches to serve as community hubs, hosting a variety of events and fostering deeper connections with local groups.

In conclusion, Panasonic Connect’s church AV solutions, including PTZ cameras and the KAIROS live event production switcher, are essential for modern houses of worship looking to elevate their worship services, improve live streaming, and strengthen community ties. These technologies not only enhance the worship experience but also position churches as central, engaging spaces for both spiritual growth and community involvement.

Read the full article from Panasonic Connect HERE

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MIT to lead expansion of regional innovation network

The U.S. National Science Foundation (NSF) has selected MIT to lead a new Innovation Corps (I-Corps) Hub to support a partnership of eight New England universities committed to expanding science and technology entrepreneurship across the region, accelerating the translation of discoveries into new solutions that benefit society. NSF announced the five-year cooperative agreement of up to $15 million today.

The NSF I-Corps Hub: New England Region is expected to launch on Jan. 1, 2025. The seven institutions initially collaborating with MIT include Brown University, Harvard University, Northeastern University, Tufts University, University of Maine, University of Massachusetts Amherst, and the University of New Hampshire.

Established by the NSF in 2011, the I-Corps program provides scientists and engineers from any discipline with hands-on educational experiences to advance their research from lab to impact.  There are more than 50,000 STEM researchers at the nearly 100 universities and medical schools in New England. Many of these institutions are located in underserved and rural areas of the region that face resource challenges in supporting deep-tech translational efforts. The eight institutions in the hub will offer I-Corps training while bringing unique strengths and resources to enhance a regional innovation ecosystem that broadens participation in deep-tech innovation.

“Now more than ever we need the innovative solutions that emerge from this type of collaboration to solve society’s greatest and most intractable challenges. Our collective sights are set on bolstering our regional and national innovation networks to accelerate the translation of fundamental research into commercialized technologies. MIT is eager to build on our ongoing work with NSF to further cultivate New England’s innovation hub,” says MIT Provost Cynthia Barnhart, the Abraham J. Siegel Professor of Management Science and professor of operations research, who is the principal investigator on the award.

The hub builds on 10 years of collaboration with other I-Corps Sites at institutions across the region and prior work from the MIT I-Corps Site program launched in 2014 and the I-Corps Node based at MIT established in 2018. More than 3,000 engineers and scientists in New England have participated in regional I-Corps programs. They have formed over 200 companies, which have raised $3.5 billion in grants and investments. 

“The goal of the I-Corps program is to deploy experiential education to help researchers reduce the time necessary to translate promising ideas from laboratory benches to widespread implementation that in turn impacts economic growth regionally and nationally,” said Erwin Gianchandani, NSF assistant director for Technology, Innovation and Partnerships, in NSF’s announcement. “Each regional NSF I-Corps Hub provides training essential in entrepreneurship and customer discovery, leading to new products, startups, and jobs. In effect, we are investing in the next generation of entrepreneurs for our nation.”

One I-Corps success story comes from Shreya Dave PhD ’16, who participated in I-Corps training in 2016 with her colleagues to explore potential applications for a new graphene oxide filter technology developed through her research. Based on their learnings from the program and the evidence collected, they shifted from filters for desalination to applications in chemical processing and gained the confidence to launch Via Separations in 2017, focused on the tough tech challenge of industrial decarbonization. Via Separations, which was co-founded by Morton and Claire Goulder and Family Professor in Environmental Systems Professor of Materials Science and Engineering Jeffrey Grossman and Chief Technical Officer Brent Keller, has reached commercialization and is now delivering products to the pulp and paper industry.

“NSF I-Corps helped us refine our vision, figure out if our technology could be used for different applications, and helped us figure out if we can manufacture our technology in a scalable fashion — taking it from an academic project to a real–scale commercial project,” says Dave, who is the CEO and co-founder of Via Separations. 

New England boasts a “highly developed ecosystem of startup resources, funders, founders, and talent,” says Roman Lubynsky, executive director of MIT’s current NSF I-Corps Node, who will serve as the director of the new hub. “However, innovation and entrepreneurship support has been unevenly distributed across the region. This new hub offers an exciting opportunity to collaborate with seven partner institutions to extend and further scale up this important work throughout the region.”

The I-Corps Hubs across the country form the backbone of the NSF National Innovation Network. This network connects universities, NSF researchers, entrepreneurs, regional communities, and federal agencies to help researchers bring their discoveries to the marketplace. Together, the hubs work to create a more inclusive and diverse innovation ecosystem, supporting researchers nationwide in transforming their ideas into real-world solutions.

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Quantum simulator could help uncover materials for high-performance electronics

Quantum computers hold the promise to emulate complex materials, helping researchers better understand the physical properties that arise from interacting atoms and electrons. This may one day lead to the discovery or design of better semiconductors, insulators, or superconductors that could be used to make ever faster, more powerful, and more energy-efficient electronics.

But some phenomena that occur in materials can be challenging to mimic using quantum computers, leaving gaps in the problems that scientists have explored with quantum hardware.

To fill one of these gaps, MIT researchers developed a technique to generate synthetic electromagnetic fields on superconducting quantum processors. The team demonstrated the technique on a processor comprising 16 qubits.

By dynamically controlling how the 16 qubits in their processor are coupled to one another, the researchers were able to emulate how electrons move between atoms in the presence of an electromagnetic field. Moreover, the synthetic electromagnetic field is broadly adjustable, enabling scientists to explore a range of material properties.

Emulating electromagnetic fields is crucial to fully explore the properties of materials. In the future, this technique could shed light on key features of electronic systems, such as conductivity, polarization, and magnetization.

“Quantum computers are powerful tools for studying the physics of materials and other quantum mechanical systems. Our work enables us to simulate much more of the rich physics that has captivated materials scientists,” says Ilan Rosen, an MIT postdoc and lead author of a paper on the quantum simulator.

The senior author is William D. Oliver, the Henry Ellis Warren professor of electrical engineering and computer science and of physics, director of the Center for Quantum Engineering, leader of the Engineering Quantum Systems group, and associate director of the Research Laboratory of Electronics. Oliver and Rosen are joined by others in the departments of Electrical Engineering and Computer Science and of Physics and at MIT Lincoln Laboratory. The research appears today in Nature Physics.

A quantum emulator

Companies like IBM and Google are striving to build large-scale digital quantum computers that hold the promise of outperforming their classical counterparts by running certain algorithms far more rapidly.

But that’s not all quantum computers can do. The dynamics of qubits and their couplings can also be carefully constructed to mimic the behavior of electrons as they move among atoms in solids.

“That leads to an obvious application, which is to use these superconducting quantum computers as emulators of materials,” says Jeffrey Grover, a research scientist at MIT and co-author on the paper.

Rather than trying to build large-scale digital quantum computers to solve extremely complex problems, researchers can use the qubits in smaller-scale quantum computers as analog devices to replicate a material system in a controlled environment.

“General-purpose digital quantum simulators hold tremendous promise, but they are still a long way off. Analog emulation is another approach that may yield useful results in the near-term, particularly for studying materials. It is a straightforward and powerful application of quantum hardware,” explains Rosen. “Using an analog quantum emulator, I can intentionally set a starting point and then watch what unfolds as a function of time.”

Despite their close similarity to materials, there are a few important ingredients in materials that can’t be easily reflected on quantum computing hardware. One such ingredient is a magnetic field.

In materials, electrons “live” in atomic orbitals. When two atoms are close to one another, their orbitals overlap and electrons can “hop” from one atom to another. In the presence of a magnetic field, that hopping behavior becomes more complex.

On a superconducting quantum computer, microwave photons hopping between qubits are used to mimic electrons hopping between atoms. But, because photons are not charged particles like electrons, the photons’ hopping behavior would remain the same in a physical magnetic field.

Since they can’t just turn on a magnetic field in their simulator, the MIT team employed a few tricks to synthesize the effects of one instead.

Tuning up the processor

The researchers adjusted how adjacent qubits in the processor were coupled to each other to create the same complex hopping behavior that electromagnetic fields cause in electrons.

To do that, they slightly changed the energy of each qubit by applying different microwave signals. Usually, researchers will set qubits to the same energy so that photons can hop from one to another. But for this technique, they dynamically varied the energy of each qubit to change how they communicate with each other.

By precisely modulating these energy levels, the researchers enabled photons to hop between qubits in the same complex manner that electrons hop between atoms in a magnetic field.

Plus, because they can finely tune the microwave signals, they can emulate a range of electromagnetic fields with different strengths and distributions.

The researchers undertook several rounds of experiments to determine what energy to set for each qubit, how strongly to modulate them, and the microwave frequency to use.

“The most challenging part was finding modulation settings for each qubit so that all 16 qubits work at once,” Rosen says.

Once they arrived at the right settings, they confirmed that the dynamics of the photons uphold several equations that form the foundation of electromagnetism. They also demonstrated the “Hall effect,” a conduction phenomenon that exists in the presence of an electromagnetic field.

These results show that their synthetic electromagnetic field behaves like the real thing.

Moving forward, they could use this technique to precisely study complex phenomena in condensed matter physics, such as phase transitions that occur when a material changes from a conductor to an insulator.

“A nice feature of our emulator is that we need only change the modulation amplitude or frequency to mimic a different material system. In this way, we can scan over many materials properties or model parameters without having to physically fabricate a new device each time.” says Oliver.

While this work was an initial demonstration of a synthetic electromagnetic field, it opens the door to many potential discoveries, Rosen says.

“The beauty of quantum computers is that we can look at exactly what is happening at every moment in time on every qubit, so we have all this information at our disposal. We are in a very exciting place for the future,” he adds.

This work is supported, in part, by the U.S. Department of Energy, the U.S. Defense Advanced Research Projects Agency (DARPA), the U.S. Army Research Office, the Oak Ridge Institute for Science and Education, the Office of the Director of National Intelligence, NASA, and the National Science Foundation. 

20+ Best Color Grading LUTs for Lightroom – Speckyboy

You can use Lightroom Look-Up Tables (LUTs) to improve the look of any photo. They provide an easy way to add all manner of professional effects. They are a must-have addition to every designer’s toolbox.

Today, we’ll introduce you to some fantastic color-grading LUTs for Adobe’s Lightroom. These presets help you tell visual stories by adjusting aspects of your images, such as color, saturation, curves, and white balance. It’s a way to convey emotion, mood, and even time.

Our collection features a variety of color grading options. Use them to depict times of day, seasons, and color temperature, among other unique effects. The possibilities are nearly endless!

You might be surprised at what can be accomplished through these simple add-ons. Not to mention the time you’ll save by not having to edit your images manually.

Ready to get started? Keep reading to find the perfect fit for your visual storytelling project.

You may also like our free collection of Lightroom LUTs.

Add warmth to your photos with these Lightroom presets. They’re designed to bring out orange, red, and yellow tones. Use them to enhance landscapes and portraits with a sunny glowing effect.

Warm Tone Color Grading Lightroom LUTs

Are you looking to add a cool touch to your shots? These LUTs accentuate cool color tones, making your image stand out to a whole new level. They’re perfect for making your subject pop.

Cool Tone Color Grading Lightroom LUTs

Quickly add beautiful vintage film effects to your images with this collection. You can use these presets to bring out rich film tones and create a sense of magic. You’ll find everything you need to design a classic look.

Vintage Film Color Grading Lightroom LUTs

This LUT collection offers a variety of cinematic styles. You’ll find presets for different color temperatures and moods. It’s an easy way to add a bit of Hollywood to your work.

Cinematic Color Grading Lightroom LUTs

Enhance your lifestyle photography with this set of muted tone presets. They’re great for setting a dark or serious mood. Even better, you can apply these eye-catching looks with a single click.

Muted Tone Color Grading Lightroom LUTs

Create just the right mood with these LUTs. Inspired by a good cup of coffee, they bring rich, warm tones to photos. The large number of presets will help you find the perfect effect for your project.

Rich Color Color Grading Lightroom LUTs

These color-grading LUTs are designed to add cinematic tones to your photographs. Bring out a dramatic matte finish in an instant. You can also adjust these presets to fit your needs.

Matte Finish Color Grading Lightroom LUTs

Soft pastel tones are great for portrait and landscape photography. They add a gentle touch and create a light mood. This LUT collection will help you add a look that will produce smiles.

Pastel Tone Color Grading Lightroom LUTs

Enhance your urban landscapes with this set of desaturated Lightroom LUTs. Use them to create a moody and contemporary look with just a click. You’ll find a variety of presets here to achieve your desired result.

Desaturated Color Grading Lightroom LUTs

Nothing stands out more than an image with rich color contrast. These presets will help you create high-end contrast effects with minimal effort. Add them to your collection and bring out the best in your photos.

High Contrast Color Grading Lightroom LUTs

The warm glow of the “golden hour” is a longtime staple of photography. The color-grading LUTs in this pack can help you enhance or even simulate the effect. Best of all, they work well with just about any photograph.

Golden Hour Color Grading Lightroom LUTs

Use this collection of presets to add cool blue tones to your photos. They can bring a moody vibe to your landscapes and portraits. The effect is gentle on the eyes and easy to implement.

Blue Hour Color Grading Lightroom LUTs

Bring your images to life with a bright, sun-kissed effect. The presets in this collection can enhance even the dullest low-light photos. The gorgeous glow of a sunset is within your reach.

Sunset Glow Color Grading Lightroom LUTs

Here’s a fun collection to make your images look otherworldly. Multiple styles are available, each with a unique spin on infrared film effects. Experiment with these presets to discover a whole world of possibilities.

Infrared Color Grading Lightroom LUTs

Ensure your color stands out with this set of cross-processed LUTs. Choose your desired color, and the preset will do the rest. It’s a great way to add a dominant hue to your photos.

Cross Processed Color Grading Lightroom LUTs

These LUTs will desaturate your image – resulting in an understated tone. They’re an excellent choice for fashion and landscape photos where a touch of nostalgia is needed. You’ll have professional effects in no time.

Bleach Bypass Color Grading Lightroom LUTs

Add a vibrant touch with these color-popping presets. You can turn your images from dull to vivid with just one click. Use them to create attention-grabbing social media, web, or print photos.

Color Pop Lightroom LUTs#

Transform your photos with rich autumn tones that evoke the season’s spirit. Each LUT offers cinematic quality with an array of options to choose from. A simple way to decorate your images for fall!

Autumn Color Grading Lightroom LUTs

Think of lush greens, pastel yellows, and bright whites. Bring out these springtime colors with a collection that’s blooming with potential. It’s perfect for outdoor nature shots and portraits.

Spring Color Grading Lightroom LUTs

Turn up the intensity with this collection of summer-themed LUTs. They’re designed to accentuate the rich, warm tones of your photos. Use them to beautify your summer shots without breaking a sweat.

Summer Color Grading Lightroom LUTs

These presets create a sharp and cool style reminiscent of winter. Each option focuses on a different shade, giving you multiple ways to make a statement. Use them on fashion, lifestyle, and outdoor images.

Winter Color Grading Lightroom LUTs


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