Patent application number | Description | Published |
20080222949 | Devices and methods for growing plants - A gardening system includes a modular seed cartridge including a rigid, cup-shaped receptacle including an upper portion having an outer rim, a soilless growth medium located in the rigid, cup-shaped receptacle, and at least one seed in contact with the soilless growth medium. The gardening system also includes an aeroponic or hydroponic garden including a chamber including a lower portion for storing a liquid nutrient solution, a cover located above the chamber, the cover including a plant opening adapted to removably support the modular seed cartridge by the outer rim, and a pump located in the chamber and adapted to circulate the liquid nutrient solution from the lower portion of the chamber to the modular seed cartridge supported by the plant opening. | 09-18-2008 |
20080276534 | Devices and methods for growing plants by measuring liquid consumption - This invention provides adaptive growth technology, hydroponic and aeroponic gardens with adaptive growth technology, and methods for growing a plant or germinating a seed in with adaptive growth technology. An apparatus of this invention includes a vessel, a growing surface, a light source, a liquid measurement device, a controller in communication with the measurement device and a time that calculate the rate of consumption of the liquid in the vessel by seeds or plants and that adjust the liquid delivery rate, the liquid quality, the nutrient delivery rate, the nutrient quality, the photoradiation delivery rate, and/or the photoradiation quality based on the calculated rate of liquid usage. In an embodiment, the steps are performed automatically without human intervention. | 11-13-2008 |
20080282610 | Devices and methods for growing plants - A soilless garden includes a chamber including a sealed lower portion for storing liquid nutrient solution, and an upper portion including a support structure; soilless growth medium supported by the support structure and adapted to support at least one plant having roots; a removable germination cap located above the soilless growth medium; a conduit having a first end located substantially adjacent to the soilless growth medium, and a second end opposite to the first end; and a pump in the chamber, including an input for receiving the liquid nutrient solution from the lower portion of the chamber, and an output to deliver liquid nutrient solution through the conduit into the soilless growth medium. The support structure includes an opening directed toward the lower portion of the chamber for the liquid nutrient solution to drip from the roots of the at least one plant into the lower portion of the chamber. | 11-20-2008 |
Patent application number | Description | Published |
20090195927 | DIGITALLY SHREDDING ON REMOVABLE DISK DRIVES - Embodiments provide unique and novel systems and methods for deleting data on removable disk drives. In embodiments, the removable disk drives store data that may be erased such that the data is considered destroyed but that allows the removable disk drive to be reused. The archiving system can determine which data should be erased. Then, the data is digitally shredded on sector boundaries of the removable disk drives such that the reclaimed memory cannot be read to decipher the erased data. In alternative embodiments, data is written across sector boundaries such that two or more files may occupy a single sector. A journal area, in embodiments, allows for copying the data in a sector with two or more files, digitally shredding the sectors in the removable disk drive, and rewriting the data that was not to be digitally shredded to the original location of the data. | 08-06-2009 |
20090198927 | METHODS FOR IMPLEMENTATION OF WORM MODE ON A REMOVABLE DISK DRIVE STORAGE SYSTEM - Embodiments provide systems and methods for maintaining immutable data in an archiving system using random access memory. To ensure data is immutable, novel pointers are maintained in the hardware/firmware of the drive ports and on the removable disk drives. For example, a hardware/firmware in a modular drive bay maintains a pointer to a memory address in the removable disk drive memory that cannot write to a memory block that precedes the pointer. Data may only be stored after the pointer in the removable disk drive. As such, once data is written to the removable disk drive, the data cannot be overwritten although the removable disk drive employs random access memory. | 08-06-2009 |
20120036280 | DIGITALLY SHREDDING ON REMOVABLE DISK DRIVES - Embodiments provide unique and novel systems and methods for deleting data on removable disk drives. In embodiments, the removable disk drives store data that may be erased such that the data is considered destroyed but that allows the removable disk drive to be reused. The archiving system can determine which data should be erased. Then, the data is digitally shredded on sector boundaries of the removable disk drives such that the reclaimed memory cannot be read to decipher the erased data. In alternative embodiments, data is written across sector boundaries such that two or more files may occupy a single sector. A journal area, in embodiments, allows for copying the data in a sector with two or more files, digitally shredding the sectors in the removable disk drive, and rewriting the data that was not to be digitally shredded to the original location of the data. | 02-09-2012 |
20120311258 | METHODS FOR IMPLEMENTATION OF WORM MODE ON A REMOVABLE DISK DRIVE STORAGE SYSTEM - Embodiments provide systems and methods for maintaining immutable data in an archiving system using random access memory. To ensure data is immutable, novel pointers are maintained in the hardware/firmware of the drive ports and on the removable disk drives. For example, a hardware/firmware in a modular drive bay maintains a pointer to a memory address in the removable disk drive memory that cannot write to a memory block that precedes the pointer. Data may only be stored after the pointer in the removable disk drive. As such, once data is written to the removable disk drive, the data cannot be overwritten although the removable disk drive employs random access memory. | 12-06-2012 |