39results about How to "Avoid hibernation" patented technology

The invention provides a sleep and wake-up method for an in-vehicle hybrid network including the vehicle-mounted Ethernet. The method is characterized by comprising the following steps that S1, an in-vehicle controller is connected into the network through buses connected with the in-vehicle controller and managed by a network manager; and S2, when a sleep trigger condition exists in the network,a network coordinator judges whether the buses in the network are in the hibernation state or not, if any one of the buses is not in the hibernation state, the current network maintains a network mode, and if all the buses are in the hibernation state, the network coordinator releases the network and enters the total sleep mode after the preset waiting time. According to the technical scheme, thesleep and wake-up states of the in-vehicle hybrid network including the vehicle-mounted Ethernet can be managed, coordinated management comprises the management of the sleep and wake-up states of theAutosar Ethernet network, the Autosar CAN network and the OSEK CAN network, the network resources in a vehicle are saved, the energy is saved, and the efficiency is improved.

The invention discloses a horizontal aerobic fermentation reactor and an aerobic fermentation reaction method. The horizontal aerobic fermentation reactor comprises a horizontal cylinder, wherein a stirring device is arranged in the horizontal cylinder. Through a jacket connected with an external connecting pipe, a fermentation material is rapidly heated and an aerobic fermentation reaction is controlled to be carried out at a proper temperature, death and dormancy of aerobic microorganisms due to overhigh fermentation temperature are avoided; through driving the stirring device with a helical blade to rotate, the fermentation material is in full and uniform contact with oxygen to generate a high-speed aerobic reaction; through a ventilating flange connected with an external ventilating system, waste gas generated by the reaction is intensively treated and then exhausted; and heat generated by the reaction is recycled. The horizontal aerobic fermentation reactor has the advantages of small occupation area, lower drive power and good environmental protection and energy saving effect.

The invention discloses a hibernation and wake up synchronization method of an AT and an AN. The invention comprises that a reference Timer is set; a first party of the AT and the AN defines the hibernation cycle value according to the own T12, T23 thereof and set Timer; a second party defines the hibernation cycle value according to own T12 and T23 thereof. Then the AT and the AN calculate the respective own wake up time slot T according to the own defined hibernation cycle and carries out the switchover of the hibernation and wake up according to the own wake up time slot T thereof. The invention also provides an AT, comprising a hibernation cycle determination unit, a wake up time slot calculation unit and a hibernation wake up unit. In addition, the invention also provides an AN, comprising a hibernation cycle determination unit, a wake up time slot calculation unit and a hibernation wake up unit. The invention is capable of ensuring the synchronization of both the hibernation and wake up of the AT and the AN, and decreasing the paging loss problem caused by asynchronism of the AT and the AN.

The invention belongs to the technical field of plant seedling propagation and discloses a micropropagation method of tilia miqueliana. The method comprises steps as follows: A, culture of seedling of the tilia miqueliana; B, adventitious bud induction; C, high-voltage electrostatic field processing; D, subculture and rooting; E, acclimation and seedling hardening. A large quantity of tilia miqueliana explants easy to disinfect can be obtained, the success rate of primary culture is higher than 98%, the proliferation rate reaches 113 times, the survival rate reaches 95%, the problem of shortage of the tilia miqueliana in the market is effectively solved, and the application prospect is wide.

The invention relates to the technical field of Paris polyphylla var Chinensis breeding, and concretely relates to a rapid breeding method of Paris polyphylla var Chinensis seeds. The method comprises the following steps: seed selection, seed pretreatment, ultrasonic treatment, stratification treatment and seed cultivation. The method which combines the ultrasonic treatment with the stratification treatment realizes the germination of the Paris polyphylla var Chinensis seeds on about 130-170th day, so the germination cycle is shortened; the seed germination rate stably reaches 85% or above, and the emergence rate reaches 85% or more, so the emergence rate is improved; and the method also has the advantages of reasonable technological parameters, simplicity, convenience in operation, low cost, and suitableness for practical production application.

The invention discloses a germination accelerating method for carpinus cordata seeds. The germination accelerating method comprises the following steps that a coarse grain gravel layer, a grass carbon or perlite layer, a wool fabric gauze element with single-layer meshes smaller than 2mm, a seed layer soaked by potassium permanganate, a wool fabric gauze element with single-layer meshes smaller than 2mm, a fine sand layer and a sawdust layer are sequentially laid from bottom to top in a shady, cool, ventilated and well-drained zone, and then the zone is watered thoroughly, after the zone is dried, the zone is watered once, it is guaranteed that the seeds are moist, the temperature is controlled between 5 DEG C and 25 DEG C, after the outdoor temperature is lower than 5 DEG C, the seeds are moved into a room, the seeds are located between the upper sand and the lower sand, the treatment time is 4 months-5 months, and when 20% of the seeds crack, the seeds are moved into a freezer with the temperature of minus 15 DEG C and sown in early spring of the next year. According to the method, a high-quality seed low-temperature moisturizing method is adopted to continue seed vitality and prevent the seeds from entering a dormant state, the seeds are treated while being picked in the current year, the budding rate can reach 80% or above, and the treated seeds can emerge in same year after being sown in the spring of the next year.

The invention discloses a seed treatment method for improving the germination rate of hemerocallis fulva. The method comprises the following steps: S1, cleaning: scrubbing the surfaces of seeds in clear water to be clean, and removing the seeds floating on the water surface; S2, soaking: taking a clean beaker containing distilled water, adding gibberellin into the beaker according to the amount of 2-3g/L of distilled water, uniformly stirring and mixing, then putting the seeds cleaned in the S1 into the beaker, and soaking for 12-24 hours at 4 DEG C; S3, peeling: taking out the seeds soaked in the step S2, and peeling off soaked and softened seed coats; S4, sowing the seeds; and S5, culturing, namely putting plug cells after sowing in the S4 on a matched non-porous tray, and wholly placing the plug cells in an environment of 25-28 DEG C for culturing. According to the method disclosed by the invention, the seed coats are stripped for direct sowing by utilizing the characteristic that the gibberellin breaks the dormancy of the seeds, so that the seed coat obstacle is broken, and the seed germination can be efficiently promoted. The treatment method is simple and easy to operate, the germination rate of the seeds can be remarkably increased, the dormancy breaking time is greatly shortened, and the seedling raising and breeding efficiency of the hemerocallis fulva seeds is improved.

Systems and techniques for maintaining and improving inkjet nozzle hygiene and print reliability are disclosed. The method may include monitoring whether a trigger event has occurred. In response to detecting that the trigger event has occurred, at least a portion of the ink contained in the sump tank is pumped in a direction toward the ink cartridge through a tube that connects the sump tank to the ink cartridge. The header tank is connected to a printhead included as part of a scan head. The method may also include circulating ink through the tube back into the catch tank, and wobbling the scan head by moving the scan head along the x-y gantry. Additional methods may include reverse cleaning, ejecting a portion of ink through nozzles on a printhead while wiping a nozzle plate included on the printhead, and randomizing printhead position while printing.

The invention discloses a plant transpiration inhibitor containing amino acids. The plant transpiration inhibitor contains leucine (Leu), threonine (Thr), glutamic acid (Glu), aspartic acid (Asp), proline (Pro), butadienoic acid and some polymer compounds. Plant dormancy and even premature senescence caused by plant hormones applied in the conventional plant transpiration inhibitor are avoided, plants are induced to close stomas under collocation of the five amino acids, butadienoic acid and some polymer compounds are added while stoma close is induced, so that plant transpiration not only canbe reduced by closing the stomas, but also can be reduced in various aspects by forming a semipermeable film and a reflective film, and the plant transpiration inhibitor is environmentally friendly.