Orthodontic procedures can be inconvenient in nature.To overcome this problem,accelerated orthodontics play a very important role to reduce existing trouble and discomfort.The most common inconvenience caused during o...Orthodontic procedures can be inconvenient in nature.To overcome this problem,accelerated orthodontics play a very important role to reduce existing trouble and discomfort.The most common inconvenience caused during orthodontic treatment procedures is that they are very time consuming which can result in several drawbacks,including an increased risk of tooth decay,gingival recession,and root resorption.Various methods can be employed to expedite orthodontic treatment by accelerating tooth movement,including surgical-assisted procedures,biological interventions,and the utilization of devices.These approaches effectively reduce the overall period of treatment.The purpose of this review is to study the effective techniques for orthodontic tooth movement as well as highlight various orthodontic accelerating methods in the respective approaches.Some nonsurgical studies indicated that drug-induced methods can have a therapeutic effect on tooth movement.One of the approaches involves the local administration of Vitamin 1.25D,which has been found to expedite tooth movement.Vibrational orthodontic devices are a painless and cost-effective option that is considered the least invasive approach for accelerating tooth movement.Meanwhile,surgical approach is also a successful method,wherein great results and strong PDL tissue response were observed,but they cause a lot of pain and discomfort to the patient.Therefore,due to the strengths and limitations of each procedure covered in the study,more research should be done to identify the fastest way to speed up tooth mobility。展开更多
Multispeed transmissions can enhance the dynamics and economic performance of electric vehicles(EVs),but the coordinated control of the drive motor and gear shift mechanism during gear shifting is still a difficult ch...Multispeed transmissions can enhance the dynamics and economic performance of electric vehicles(EVs),but the coordinated control of the drive motor and gear shift mechanism during gear shifting is still a difficult challenge because gear shifting may cause discomfort to the occupants.To improve the swiftness of gear shifting,this paper proposes a coordinated shift control method based on the dynamic tooth alignment(DTA)algorithm for nonsynchronizer automated mechanical transmissions(NSAMTs)of EVs.After the speed difference between the sleeve(SL)and target dog gear is reduced to a certain value by speed synchronization,angle synchronization is adopted to synchronize the SL quickly to the target tooth slofs angular position predicted by the DTA.A two-speed planetary NS AMT is taken as an example to carry out comparative simulations and bench experiments.Results show that gear shifting duration and maximum jerk are reduced under the shift control with the proposed method,which proves the effectiveness of the proposed coordinated shift control method with DTA.展开更多
基金Dr.Vishwanath Karad MIT-World Peace University,Pune,411038 India and Dr.D.Y.Patil Dental College,and Hospital,Pimpri,Pune-411018 India.
文摘Orthodontic procedures can be inconvenient in nature.To overcome this problem,accelerated orthodontics play a very important role to reduce existing trouble and discomfort.The most common inconvenience caused during orthodontic treatment procedures is that they are very time consuming which can result in several drawbacks,including an increased risk of tooth decay,gingival recession,and root resorption.Various methods can be employed to expedite orthodontic treatment by accelerating tooth movement,including surgical-assisted procedures,biological interventions,and the utilization of devices.These approaches effectively reduce the overall period of treatment.The purpose of this review is to study the effective techniques for orthodontic tooth movement as well as highlight various orthodontic accelerating methods in the respective approaches.Some nonsurgical studies indicated that drug-induced methods can have a therapeutic effect on tooth movement.One of the approaches involves the local administration of Vitamin 1.25D,which has been found to expedite tooth movement.Vibrational orthodontic devices are a painless and cost-effective option that is considered the least invasive approach for accelerating tooth movement.Meanwhile,surgical approach is also a successful method,wherein great results and strong PDL tissue response were observed,but they cause a lot of pain and discomfort to the patient.Therefore,due to the strengths and limitations of each procedure covered in the study,more research should be done to identify the fastest way to speed up tooth mobility。
基金This work was supported by the Science and Technology Planning Project of Guangdong Province,China(Grant Nos.2015B010119002 and 2016B010132001).
文摘Multispeed transmissions can enhance the dynamics and economic performance of electric vehicles(EVs),but the coordinated control of the drive motor and gear shift mechanism during gear shifting is still a difficult challenge because gear shifting may cause discomfort to the occupants.To improve the swiftness of gear shifting,this paper proposes a coordinated shift control method based on the dynamic tooth alignment(DTA)algorithm for nonsynchronizer automated mechanical transmissions(NSAMTs)of EVs.After the speed difference between the sleeve(SL)and target dog gear is reduced to a certain value by speed synchronization,angle synchronization is adopted to synchronize the SL quickly to the target tooth slofs angular position predicted by the DTA.A two-speed planetary NS AMT is taken as an example to carry out comparative simulations and bench experiments.Results show that gear shifting duration and maximum jerk are reduced under the shift control with the proposed method,which proves the effectiveness of the proposed coordinated shift control method with DTA.
