05.04.18
Osram is taking the next step in its quest to become the leading provider of intelligent plant growth solutions by acquiring Fluence Bioengineering, Inc. of Austin, TX.
Fluence was founded in 2013, has approximately 95 employees and its 2017 sales were in the mid-double-digit millions of dollars (USD). The company specializes in LED-based horticultural systems, using Osram LED chips, for a wide variety of applications including vertical farming, especially in urban areas. Potential crops range from salad greens and herbs to medicinal plants. Osram and Fluence have agreed not to disclose the purchase price.
“Fluence is opening the floodgates to a huge future market,” said Stefan Kampmann, CTO of OSRAM Licht AG. “Fluence’s extensive knowledge of the horticulture market and possible applications, combined with Osram’s expertise in lighting technologies, sensors and connectivity, will position us as a leading horticultural solutions provider.”
Associated smart farming software can be integrated into Osram’s Internet of Things (IoT) platform Lightelligence, which brings the digitalization of lighting control to a new level. By combining and analyzing sensor data, Lightelligence enables significant progress in automation and intelligent applications far beyond lighting.
Increasing population and continued urbanization are intensifying the demand for fresh food, especially in densely populated cities around the world. To meet the needs of these areas, growers must tap the potential of greenhouses and vertical cultivation systems, utilizing smart lighting, sensor systems and artificial intelligence. In addition to growing healthy and tasty food, vertical farms reduce the need for long-distance transportation routes. They also lessen the need for pesticides, fertilizers and excessive water use, and ultimately reduce spoilage.
LED-based solutions from Fluence help growers meet their yield and sustainability goals by increasing harvests up to 25%, reducing energy costs by as much as 50% and, through the targeted use of light, improving the quality and nutritional content of plants.
“In the future, self-learning software algorithms will create and optimize digital plant models in order to cultivate tailor-made salads and herbs for platform partners such as supermarkets, online grocery shops and pharmaceutical companies,” Kampmann said.
Fluence was founded in 2013, has approximately 95 employees and its 2017 sales were in the mid-double-digit millions of dollars (USD). The company specializes in LED-based horticultural systems, using Osram LED chips, for a wide variety of applications including vertical farming, especially in urban areas. Potential crops range from salad greens and herbs to medicinal plants. Osram and Fluence have agreed not to disclose the purchase price.
“Fluence is opening the floodgates to a huge future market,” said Stefan Kampmann, CTO of OSRAM Licht AG. “Fluence’s extensive knowledge of the horticulture market and possible applications, combined with Osram’s expertise in lighting technologies, sensors and connectivity, will position us as a leading horticultural solutions provider.”
Associated smart farming software can be integrated into Osram’s Internet of Things (IoT) platform Lightelligence, which brings the digitalization of lighting control to a new level. By combining and analyzing sensor data, Lightelligence enables significant progress in automation and intelligent applications far beyond lighting.
Increasing population and continued urbanization are intensifying the demand for fresh food, especially in densely populated cities around the world. To meet the needs of these areas, growers must tap the potential of greenhouses and vertical cultivation systems, utilizing smart lighting, sensor systems and artificial intelligence. In addition to growing healthy and tasty food, vertical farms reduce the need for long-distance transportation routes. They also lessen the need for pesticides, fertilizers and excessive water use, and ultimately reduce spoilage.
LED-based solutions from Fluence help growers meet their yield and sustainability goals by increasing harvests up to 25%, reducing energy costs by as much as 50% and, through the targeted use of light, improving the quality and nutritional content of plants.
“In the future, self-learning software algorithms will create and optimize digital plant models in order to cultivate tailor-made salads and herbs for platform partners such as supermarkets, online grocery shops and pharmaceutical companies,” Kampmann said.