Network architecture and protocols
US10149364, US11706860, 35/512.053 and 35/511.952 in the USA, CA2974997, CA3098719A1 and 203109 in Canada, NL2030991, NL2030992, NL2031565, NL2031566, NL2031672, NL2032506 and NL2032507 in the Netherlands, DM/213 393 and DM/213 745 in Europe, and ZL201680014324.8 in China.
Sollum has filed for patent-pending protection under the following reference numbers:CA3.149.012, CA3.149.013, CA3.155.271, CA3.155.272, CA3.156.192, CA3.167.801, CA3.168.003, CA3120005A1, CA3123310A1, EP19884263.5, EP22157349.6, EP22168220.6, EP22168233.9, EP22169506.7, US17/629.724, US17/674.261, US17/674.265, US17/719.480, US17/719.513, US17/865.817, US17/865.830, US2022015210A1, US2022046773A1, WO2020097738A1, WO2020124224A1, WO2021012056A1 and US63/269,805.
(Information as of August 2023)
Strategic application of light spectrum at each stage of growth for crop productivity and optimization of plant color, Brix levels, product size, and shelf life.
Extreme precision control for optimal and sharp results made possible by patented technology, advanced calibration algorithms, and the widest range of color, luminance & CCT.
Advanced recipes development, simulation and execution environments.
Deployment and maintenance automation with IoT-enabled programmable fixtures and granular control.
Grid-smart greenhouse cost optimization technologies supported by agile, energy-efficient recipe management and active sunlight compensation.
Industrial, high availability architecture capable of delivering a complete and dynamic light spectrum at scale, with spectrum addressability down to every single lamp.
Unprecedented control and extensibility made possible by a unique IoT-enabled, massively scalable grow lights architecture.
Interoperability with operational business systems enabling powerful use cases that were not previously possible.
And yes, moonshots: One of our partners collaborates with the Canadian Space Agency and NASA to explore space-bound applications for their innovations.