Walkbot 워크봇

Recently, the importance of disinfection and cleaning has become increasingly emphasized. Additional care for disinfection and cleaning is required as patients may be at a high risk of infection. Ongoing disinfection and cleaning is the basis for a safe rehabilitation treatment environment. The picture above shows the most frequently asked questions about how to clean Walkbot. Disinfection and cleaning of  Walkbot Lower-Limb Robotic Rehabilitation #WALKBOT #RobotAssistedGaitTraining   #RoboticGaitTraining #LowerLimbRehabilitationRobot #RoboticRehabilitation #GaitTraining #RehabilitationRobot #Rehabilitation #Stroke #CerebralPalsy  #Neuroplasticity 

Walkbot rehabilitation robot provide a Programmed training mode for suit the patient. In this training mode, user can preset the gait speed for particular intervals like customized scenario training. The gait training speed can be set in advance by time zone. Gait training modes of Walkbot Lower-Limb Robotic Rehabilitation (2) ① Click the [Program] button. ② In the settings box, enter the time and velocity to automatically adjust during training. → For convenience, users can choose to follow the previously designed "preset" program. ③ Click the [+] button to add the input value to the list. ④ Click the [x] button to delete the unwanted data from the list. ⑤ Click the [>] button to apply the preset program. ⑥ Click the [Repeat] checkbox to repeat the program. ⑦ Click the [Start] button to start the pre-programmed training mode. ⑧ Click the [Stop] button to exit the program. #WALKBOT #RobotAssistedGaitTraining   #RoboticGaitTraining #LowerLimbRehabilitationRobot #Rob

Walkbot   Lower-Limb Robotic Rehabilitation  provide a variety of training modes for suit the patient. Gait training modes of Walkbot Lower-Limb Robotic Rehabilitation (1) ① Basic training mode: Passive training and voluntary training by adjusting the robot assist power left and right side separately. The purpose of Basic training mode is to learn correct gait pattern as accurately as possible with the help of perfect synchronization of three actuated joints (Hip/Knee/Ankle), which is designed based on the actual gait algorithm of biomechanics study. The hip, knee, and ankle joints can be manually trained by the Walkbot according to the patient's customized natural gait pattern. ② Interactive training mode: Automatic speed adapted (automatic speed varying) training by sensing the patient’s voluntary efforts. The purpose of the interactive training mode is to increase the eff ectiveness of rehabilitation by helping patients participate more actively in training through the rea

Walkbot Lower-Limb Robotic Rehabilitation in korean  drama (Oh My Venus, KBS) Walkbot Lower-Limb Robotic Rehabilitation in korean  drama (Oh My Venus, KBS) Oh My Venus (Korean: 오 마이 비너스) is a South Korean television series starring So Ji-sub and Shin Min-a. It aired on KBS2 beginning on November 16, 2015. #WALKBOT #RobotAssistedGaitTraining   #RoboticGaitTraining #LowerLimbRehabilitationRobot #RoboticRehabilitation #GaitTraining #RehabilitationRobot #Rehabilitation #Stroke #CerebralPalsy  #Neuroplasticity 

If the walkbot rehabilitation robot is connected to the Internet, P&S(Head office)'s server can monitor the operation status of the walkbot. If an error is detected or if misuse is detected from the hospital, our QA team will ask for approval for the remote access to the walkbot rehabilitation robot in the hospital and will diagnose the system remotely. We will inform you of the results of the diagnosis and remotely guide you to the correct use of the walkbot. The data is only system operational records that do not contain patient information. Remote monitoring & diagnosis in Walkbot Lower-Limb Robotic Rehabilitation ① Real-time Monitoring by remote control ② Remote diagnosis using our own Management syste m ③ Providing users with normal operation in advance #WALKBOT #RobotAssistedGaitTraining   #RoboticGaitTraining #LowerLimbRehabilitationRobot #RoboticRehabilitation #GaitTraining #RehabilitationRobot #Rehabilitation #Stroke #CerebralPalsy  #Neuroplasticity 

Measurement of ROM, stiffness and force, and training summary reports allow the therapist to effectively assess the patient’s recovery stage and establish an optimized training plan for each patient. Assessment report By Assessment software and progress report, patient’s Joint force, ROM, Stiffness can be evaluated and verified by date on the chart, graph and table. Measurement and Assessment in Walkbot Lower-Limb Robotic Rehabilitation (1) Session Report  Summary of training record can be checked by date.   Each Session’s Trained Time, Distance, Steps , Left & Right Robot assistance, walking velocity, Load Relief and Stride can be summarized. Measurement and Assessment in Walkbot Lower-Limb Robotic Rehabilitation (2) #WALKBOT #RobotAssistedGaitTraining   #RoboticGaitTraining #LowerLimbRehabilitationRobot #RoboticRehabilitation #GaitTraining #RehabilitationRobot #Rehabilitation #Stroke #CerebralPalsy  #Neuroplasticity 

In Walkbot Lower-Limb Robotic Rehabilitation, spasm detection ( Reaction Sensitivity Level )  is divided into 6 levels. Depending on the patient’s body condition and the purpose of training, operator can adjust the spasm detection level differently. Practical example ① Detection level 1 ~ 2   - In case of a patient requiring extreme care or very young pediatric patient ② Detection level 3 ~ 4   - In case of light weight patient with less muscle mass   - less than 55kg body weight , 145cm ~ 160 cm tall ③ Detection level 4 ~ 5   - In case of normal weight patient with normal muscle mass   - About 55kg ~ 80kg , 160cm ~ 180 cm tall ④ Detection level 5 ~ 6   - In case of heavy weight patient   - In case of a patient who can induce voluntary walking training   - In case of a patient who can train with the aim of mitigating the stiffness. Spasm detection  (Reaction Sensitivity Level in Walkbot Lower-Limb Robotic Rehabilitation) It is also possible to set the spasm detection level d

Walkbot  Lower-Limb Robotic Rehabilitation reference sites (Korea) National Rehabilitation  Center  Seoul National  University Hospital Pusan National University  Yangsan Hospital Wonju Severance  Christian Hospital Gangwon Do  Rehabilitation Hospital H&U hospital  Gimhae Hansol hospital Ulsan City Hospital ChengDam Hospital SeoCho Cham Senior  Hospital  Choonkang  Hospital(Child) Honam Regional Rehabilitation Hospital  YoungKwang  Hospital National Transportation Rehabilitation Hospital National Veterans  Hospital Chungnam National Univer. Hospital(Child) Myungji Choonhye  Hospital  Gangnamgu Senior  Hospital  Good Sunlin hospital Pajucity hospital CnC Yullang hospital Hwaseong Ardim  welfare center  Dongtan Ardim  welfare center  Giheung welfare center Good Wellness center NATIONAL HEALTH INSURANCE  SERVICE ILSANHOSPITAL Pusan National Univ.  Yangsan hospital Andong Bokju hospital  Pyeong taek health center #WALKBOT #RobotAssistedGaitTraining   #RoboticGaitTraining #LowerLimbReha

Walkbot  Lower-Limb Robotic Rehabilitation reference sites (China)  Shenzhen Maternal and child  health care hospital (Walkbot_K in China) Shanghai 10 Hospital  (Walkbot_S in China) Shanghai Zhongsan Hospital  (Walkbot_S in China) Shanghai Shuguang Hospital  (Walkbot_S in China) Guangzhou city women and  children Hospital  (Walkbot_K in China) Inner Mongolia Hospital  (Walkbot_K in China) Anhui Hospital  (Walkbot_K in China) Urumqi Hospital  (Walkbot_K in China) PKUCare Rehab. Hospital  (Walkbot S, K in China) #WALKBOT #RobotAssistedGaitTraining   #RoboticGaitTraining #LowerLimbRehabilitationRobot #RoboticRehabilitation #GaitTraining #RehabilitationRobot #Rehabilitation #Stroke #CerebralPalsy  #Neuroplasticity 

The Patient's gait pattern can be quantitatively analyzed through various graphs/tables( Gait Analysis Report ) and CSV files( raw data ) in Walkbot Lower-Limb Robotic Rehabilitation 3D motion(gait) analysis system. 1. Gait Analysis Report Walkbot Gait Analysis Report(1)   Tracing data analysis Walkbot Gait Analysis Report(2) Walkbot Gait Analysis Report(3)   Voluntary Angle[Degree] variation by time zone Walkbot Gait Analysis Report(4) Voluntary Torque[Nm] variation by time zone Walkbot Gait Analysis Report(5) Swing Phase Gait Analysis Table by time zone  Walkbot Gait Analysis Report(6) Stance Phase Gait Analysis Table by time zone  Walkbot Gait Analysis Report(7) 2. Raw data (CSV file) Walkbot Gait Analysis Report(8) View Walkbot advanced solutions #WALKBOT #RobotAssistedGaitTraining   #RoboticGaitTraining #LowerLimbRehabilitationRobot #RoboticRehabilitation #GaitTraining #RehabilitationRobot #Rehabilitation #Stroke #CerebralPalsy  #Neuroplasticity