Evergreen Entertainment Group is an independent content production and distribution company with offices in the United States and production facilities in Canada.
Evergreen represents a catalog of 400+ hours of exclusive programming available for licensing to worldwide television, VOD, DVD/video, non-theatric, and emerging new media markets.
The company was started by industry veterans, with the intent of providing a fair distribution alternative to emerging non-fiction and educational filmmakers and producers.
Evergreen has licensed programming to virtually every English-speaking country in the world, as well as a wide range of DVD labels and distributors. Evergreen's Rights Portfolio is continually updated with new releases, and includes documentaries, music and performance, lifestyle, nature & wildlife, science, health, sport, travel and how-to.
The company is also a DVD publisher/manufacturer with a growing collection of quality titles, focusing on the categories of travel, health and exercise, cooking, history, pop culture, art, music, and how-to.
Their DVD Catalog is available from most online retailers, mail-order catalogs, and many traditional retailers, and is also distributed to colleges and universities, schools, public libraries, churches, and organizations and foundations of all kinds.
Recent Releases
Resonate: A Guitar Story
Evergreen represents a catalog of 400+ hours of exclusive programming available for licensing to worldwide television, VOD, DVD/video, non-theatric, and emerging new media markets.
The company was started by industry veterans, with the intent of providing a fair distribution alternative to emerging non-fiction and educational filmmakers and producers.
Evergreen has licensed programming to virtually every English-speaking country in the world, as well as a wide range of DVD labels and distributors. Evergreen's Rights Portfolio is continually updated with new releases, and includes documentaries, music and performance, lifestyle, nature & wildlife, science, health, sport, travel and how-to.
The company is also a DVD publisher/manufacturer with a growing collection of quality titles, focusing on the categories of travel, health and exercise, cooking, history, pop culture, art, music, and how-to.
Their DVD Catalog is available from most online retailers, mail-order catalogs, and many traditional retailers, and is also distributed to colleges and universities, schools, public libraries, churches, and organizations and foundations of all kinds.
Recent Releases
Resonate: A Guitar Story
Laser Assisted Skin Healing
Laser-assisted skin healing (LASH®) today allows improving postoperative comfort of patients, minimizing risks of scar complications and reducing surgical scars.
Applied with a miniaturized handheld laser device by the name of , the treatment aims to stimulate the natural mechanisms of skin regeneration and repair initiated from the stage of wound closure, i.e. from the start of the healing process.
At this stage, EkkyLite™ delivers a controlled thermal stress on the skin area to be treated that allows reducing inflammation, helping healing, strengthening resistance of the wound and reducing the risk of residual scars.
Thus, precociously directing the tissue response, this novel laser-assisted skin healing device allows preventing regeneration and tissue repair defects/flaws that cause scarring issues.
Used by European surgeons since late 2008, EkkyLite™ is commercialized by Ekkyo, a young French photomedicine company whose founder scientists and surgeons made the discovery.
Clinical validation
The LASH® treatment efficiency was/has been demonstrated through different case studies and one clinique study conducted on large horizontal abdominoplasty scars.
Conducted by Dr. Alexandre Capon, plastic surgeon at the Centre Hospitalier Universitaire de Lille, France, this clinical study had two complementary objectives: assess both safety and therapeutical and cosmetic benefits of a treatment with a 810 nm diode laser associated to a safety strip responsible of recognizing, positioning, inputting parameters and controlling the laser treatment.
Collected results confirmed the LASH® technology’s benefits: an accelerated healing process, a significant reduction of residual scars and an improvement of patients’ postoperative comfort. 12 months after laser treatment, 83% of patients showed a significant improvement of the EkkyLite™-treated section relative to the untreated one.
Laser-assisted skin healing (LASH®) today allows improving postoperative comfort of patients, minimizing risks of scar complications and reducing surgical scars.
Applied with a miniaturized handheld laser device by the name of , the treatment aims to stimulate the natural mechanisms of skin regeneration and repair initiated from the stage of wound closure, i.e. from the start of the healing process.
At this stage, EkkyLite™ delivers a controlled thermal stress on the skin area to be treated that allows reducing inflammation, helping healing, strengthening resistance of the wound and reducing the risk of residual scars.
Thus, precociously directing the tissue response, this novel laser-assisted skin healing device allows preventing regeneration and tissue repair defects/flaws that cause scarring issues.
Used by European surgeons since late 2008, EkkyLite™ is commercialized by Ekkyo, a young French photomedicine company whose founder scientists and surgeons made the discovery.
Clinical validation
The LASH® treatment efficiency was/has been demonstrated through different case studies and one clinique study conducted on large horizontal abdominoplasty scars.
Conducted by Dr. Alexandre Capon, plastic surgeon at the Centre Hospitalier Universitaire de Lille, France, this clinical study had two complementary objectives: assess both safety and therapeutical and cosmetic benefits of a treatment with a 810 nm diode laser associated to a safety strip responsible of recognizing, positioning, inputting parameters and controlling the laser treatment.
Collected results confirmed the LASH® technology’s benefits: an accelerated healing process, a significant reduction of residual scars and an improvement of patients’ postoperative comfort. 12 months after laser treatment, 83% of patients showed a significant improvement of the EkkyLite™-treated section relative to the untreated one.
Network Interoperability is the ability for communications to occur over various hardware platforms by using a common set of standards and protocols.
Network Interoperability is fundamental in network communication products. Through standards developed by committees and governing organizations such as IEEE, NIST, and the FCC, different variations of manufactured networking components can co-exist with each other producing a larger scale system. Protocols such as TCP/IP standards have allowed for different hardware manufactures to develop and test their products to work on the same connection mediums. With Network Interoperability, each of the hardware manufactures can create their own unique versions of a particular operating system platform yet still be able to mesh communications and technologies into a system.
One of the first examples of Network Interoperability is the telephone system. Different sounds were produced from vibrations around a magnetic coil. As long as all manufactured telephones could produce the same set of vibrations, virtually any size, form-factor-ed phone could be produced to work together on the same telephone network.
In today’s unified communications industry, technologies across all domains have meshed together to produce a unique instance of Network Interoperability. Phones that carry voice over an Internet-based service can communicate seamlessly with a computer or teleprompter, for example, in another country.
Wireless communications has shown many demonstrations of Network Interoperability. An array of wireless communication devices exist on the market that can all provide the same functionality and can communicate with each other because of standards developed by the IEEE802.11 group.
Network Interoperability is fundamental in network communication products. Through standards developed by committees and governing organizations such as IEEE, NIST, and the FCC, different variations of manufactured networking components can co-exist with each other producing a larger scale system. Protocols such as TCP/IP standards have allowed for different hardware manufactures to develop and test their products to work on the same connection mediums. With Network Interoperability, each of the hardware manufactures can create their own unique versions of a particular operating system platform yet still be able to mesh communications and technologies into a system.
One of the first examples of Network Interoperability is the telephone system. Different sounds were produced from vibrations around a magnetic coil. As long as all manufactured telephones could produce the same set of vibrations, virtually any size, form-factor-ed phone could be produced to work together on the same telephone network.
In today’s unified communications industry, technologies across all domains have meshed together to produce a unique instance of Network Interoperability. Phones that carry voice over an Internet-based service can communicate seamlessly with a computer or teleprompter, for example, in another country.
Wireless communications has shown many demonstrations of Network Interoperability. An array of wireless communication devices exist on the market that can all provide the same functionality and can communicate with each other because of standards developed by the IEEE802.11 group.
A human mission to visit and land on the planet Venus has long been a subject for science fiction writers but there has not been any serious proposals to land humans there. This is because humans have not yet visited Mars, which is far easier place to visit for humans. Some manned Venus fly-by missions have been proposed: one example is TMK.
BBC's fictional docudrama, Space Odyssey: Voyage To The Planets, presents a short visit to planet Venus. A crew of two lands near Venera 14 and the probe is visited by a Russian cosmonaut wearing a spacesuit that withstands the high pressure and temperature of the Venusian atmosphere.
BBC's fictional docudrama, Space Odyssey: Voyage To The Planets, presents a short visit to planet Venus. A crew of two lands near Venera 14 and the probe is visited by a Russian cosmonaut wearing a spacesuit that withstands the high pressure and temperature of the Venusian atmosphere.