gait analysis in real time|smart insole

smart insole

As a portable gait analysis system, Insole X can meet the daily monitoring demands, it logs stride length, strike angle, foot orientation and so on. The system can be widely applied in medical diagnostics, rehabilitation, professional sports guidance, and other fields.

The impressive Insole X technology provides a new set of data that wristband-style activity trackers do not, which can be applied in a wide variety of ways depending on what field you are in. For healthcare professionals, the smart insoles provide a bevy of information involving the gait correction, while high-performance athletes can figure out if they are placing and transferring their weight correctly.

gait analysis with inertial sensors

smart insole

Sennotech Insole X is a portable gait analysis system which allows measurements of the kinematic and mechanical parameters via inertial sensors. With advanced algorithms, Insole X can extract high-precision analyzing results from the data. 

running gait analysis with smart shoe insole

Many runners get injured every year because they run in the wrong way like improper foot striking patterns or wear unfit shoes. Insole X is a smart insole which can track foot movement and then send real time feedback to the companion app. It’s designed for daily gait monitoring and will let you know as to if you are running correctly.

smart shoe with senno smart

More than counting steps, Senno smart can record your every step information including cadence, distance, calories burned, etc. Make it easy to track your daily activity. With Bluetooth4.0, you can connect Senno smart to our app for real time feedback. Just put it in your shoe, move and see what will happen.

poststroke rehabilitation|gait symmetry training

The poststroke asymmetric gait pattern can results in the increased energy expenditure. The musculoskeletal health of the nonparetic limb is also negatively affected by an asymmetric poststroke gait, leading to pain and joint degeneration when high forces repeatedly applied to a limb. Insole X can help avoid further damage to the nonparetic limb, for people who suffer from stroke, a comprehensive gait analysis appears to be important in better gait rehabilitation.

fitness tracker and activity tracker chip

smart shoe need gait tracker , it can measure gait

smart insoles

gait data can be collected by smart insoles

smart insole for clinical stroke rehabilitation

People who experience a new or recurrent stroke may suffer from balance problems or body disability in different degrees, if not taken good care of, those patients may die from stroke. Balance is the ability to stand, and gait is rhythmic stepping movements for locomotion. Balance and gait problems tend to be found in stroke patients.

Gait analysis can be found in clinical diagnosis and assessment, in a way it can facilitate better rehabilitation, usually the analysis is conducted in a confined environment like labs and takes time to get the final results, Insole X is a portable gait analysis system for daily gait monitoring, the wearers can get real time gait feedback and analysis reports. 

diabetic foot pressure measurement |smart insole

smart insole

Diabetic foot conditions are caused by a combination of neuropathy and poor circulation. Daily observation and preventative foot care are critical for preventing foot-related injuries. Insole X can help diabetics find out the abnormal pressure under feet and avoid unnecessary injuries like cuts or blisters. Poor blood circulation can cause nerve dysfunction, which means diabetics may not sense the sore under foot in time, to prevent further damage, Insole X can detect foot pressure changes with its high resolution pressure sensor array and keep the wearers aware of the abnormal pressure areas.

smart insole for better training performance

Wearable Technology Platform www.sennotech.com

Smart Insole|Foot Data Logger|Gait Analysis System|Measuring Plantar Pressure | Foot Motion Tracking

Tel +86-189-2657-6816 | Email:support@sennotech.com

smart insole

There are many well-supported wearable devices that could help to avoid sport injuries. These wearable devices are about to make a huge breakthrough for sport lovers!

Insole X can transmit data to a mobile device in real-time and store data on an integrated flash memory. After uploading foot data, the cloud server can evaluate the data and generate gait analysis report for better training performance.

smart shoe insole

Wearable Technology Platform www.sennotech.com

smart insole

Smart Insole|Foot Data Logger|Gait Analysis System|Measuring Plantar Pressure | Foot Motion Tracking

Tel +86-189-2657-6816 | Email:support@sennotech.com

SmartMove has a smart insole laden with sensors that can distinguish between different types of physical activity—such as standing, walking, running, cycling, and climbing stairs—and calculate the number of calories burned during these exercises. 

Now Sennotch is ready to produce a smart insole called Insole X that can monitor daily gait more accurately than the wearable products that already exist on the market. With advanced algorithms and comprehensive foot data, it is able to meet the daily gait monitoring demands.

smart insole for monitoring physical status

Wearable Technology Platform www.sennotech.com

Smart Insole|Foot Data Logger|Gait Analysis System|Measuring Plantar Pressure |Capturing Foot Motion Trajectory|Open API

Tel +86-189-2657-6816 | Email:support@sennotech.com

smart insole

Insole X can transmit basic foot data through USB and Bluetooth 4.0.Users can know their physical conditions in a straight-forward way.

gait analysis smart insole

Subjective references are often made to the physical limitations, including movement difficulties, of the obese. Problems commonly cited include general discomfort in simple activities of daily living such as walking and stair-climbing, pain in the joints of the lower extremity, poor circulation including oedema, and soreness or numbness in the feet, particularly following periods of standing.

In a normal weight individual, the major joints of the lower extremity are exposed to reaction forces of approximately three to six times body weight during locomotion (single leg stance phase).^1,2 It may be reasonable to hypothesise that obese individuals experience greater absolute loads at these joints than individuals of normal weight.³

Persistent loading of the musculoskeletal system of the obese has been implicated in predisposition to pathological gait patterns, loss of mobility and subsequent progression of disability,³ to a range of orthopaedic conditions that include knee osteoarthritis^4,5,6,7,8 and diabetic foot pathology.⁹Relatively few studies have considered issues related to biomechanics^3,10,11 and joints other than the knee.

A small number of studies have addressed the gait characteristics of the obese. These include studies of children during walking at different speeds using temporal, kinematic and electromyographic analyses.^12,13,14,15 Compared with normal weight children, obese subjects in these studies displayed asymmetry in temporal characteristics, particularly at the slow speed of walking, and a wider stance width. Flatfootedness and sub-talar pronation that contributed to a degree of out-toeing, particularly during the swing phase of gait, was also prevalent in the obese.

A gait analysis of obese middle-aged adults¹⁶ reported similar temporal and kinematic differences between obese and normal weight individuals to those found for children. The slower walking velocity and greater stride width are suggestive of a more tentative gait in the obese and adjustments in the base of the support due to both the size of the thighs and an attempt to maintain balance. The work of Messier et al¹⁷ also identified features that adversely affect gait in obese subjects. Independent of other co-morbid diseases, rear-foot movement variables and mean dynamic foot angles were significantly altered in a severely obese group (mean body mass index (BMI) of approximately 41.14 kg/m²).

In summary, relatively little research has addressed the movement capabilities and effects of loading on the musculoskeletal system during common weight-bearing tasks.^9,11,18 The present study is the first to present data on the peak pressures under the feet of obese adults who completed a protocol that utilised the basic locomotor tasks of standing and walking. The results provide an objective summary of the foot mechanics of this population compared with normal weight individuals. Potential physical consequences of increased or decreased pressures under the feet, including the prevention of pain and disability in the major structures of the lower extremity, are discussed.

Wearable Sensor technology platform  www.sennologger.com

Smart Insole-Foot Data Logger Gait Analysis System|Measuring Plantar Pressure |Capturing Foot Motion Trajectory|Open API

Tel +86-135-0163-4825 | Email:sennologger@126.com

wearable technology smart shoes samsung lofit

gait analysis video

gait analysis system walking gait analysis

Smart Shoes gait analysis

running gait analysis in lab

gait analyses, dynamic foot pressure analyses

Diabetes footcare | prevent diabetic foot |smart insole

Running Gait Analysis

RUNNING GAIT ANALYSIS

running gait analysis

gait analysis

football training need gait analysis with smart insole

Sennopro is a type of smart insole--Open API. If you focus on the football training,smart insole will help you with gait data collected by it.

SMART INSOLE

Sennopro-Insole X 

Sennopro-Insole X  is a wearable monitoring product with high accuracy and reliability. It consists of smart insoles that can be place in shoes and a data analyzer, which are connected via wireless communication protocols so that the activities of users can be monitored in real-time. As a wearable product with smart textile sensors, the insole allows for measuring high-resolution under-foot pressure distribution, based on which a number of healthcare applications (for example, gait analysis, sport risk prevention, and physical rehabilitation) can be achieved. In addition to that, it also captures acceleration, direction, and location data. 

Features:

• Unobtrusive monitoring
• Wearable and pervasive sensing
• Accurate and reliable measurement
• Long-term monitoring
• Real-time analysis
• Anti-disturbance techniques
• Easy-to-use
• User-friendly design
• Compatible with smart phone

Specification:

Technical Details	Type Value
Available size:	35 to 45 (European) or Customized upon special requests
Thickness:	3mm (foot soles) and 7mm (heel)
Material:	Antibacterial and xerantic material
Pressure sensor array:	>48 pressure sensor units
Pressure range:	30-1200 kPa
Hysteresis:	<5%
Resolution:	5kPa
Minimal bending radius:	30 mm
Other sensors:	3D accelerometer (1), 3D gyroscope (1), and 3D compass (1)
Orientation range:	360 °about all axes
Resolution:	< 0.05°
Accuracy:	< 0. 5 °(static), < 2° RMS (dynamic)
Connection options:	USB, SD or Bluetooth
Wireless telemetry:	Bluetooth 4.0
Power supply:	Chargeable 250-mAh Li-battery
Charging:	Wireless charging or USB
Battery working time:	>48hrs
Data quantification:	8 channels, 12 bits
Data recording:	Internal flash
Recording time:	10 hrs at 100 Hz to flash memory
A/D module power:	0 to 3.3 voltages
Device driver:	Bluetooth Serial Port Profile (BSPP)
User interface:	PC or smart phone
Environment:	Operating temperature: -20 to 60°C | Storage temperature: -40 to 80°C | Operating humidity: 10 to 90% RH
Software:	Sennotech InsoleX-analyzer