FIELD OF INVENTION:
[0001] The present invention relates to a wrist wearable diagnostic system enabled to non-invasively measure at least one physiological parameter of a user.
BACKGROUD OF THE INVENTION:
[0002] A healthy lifestyle is desired by one and all. People take various measures to have a healthy lifestyle. A healthy lifestyle can be achieved by regular exercise, regular health check-ups and proper diet among other measures.
[0003] Indulging in regular exercise and following up a proper diet to gain health benefits can be carried out by the individuals themselves. There would be no necessity to rely on third parties to carry out these activities. However, carrying out regular health check-ups and monitoring one’s health is an activity carried out by a trained professional. Health check-ups involve usage of diagnostic equipment as well as visits to the healthcare professionals.
[0004] Regular visits to the healthcare professionals to determine the status of one’s health may be found tedious to some and this may deter them from visiting the healthcare professionals for health check-ups on a regular basis. Further, the expenses involved in getting regular health check-ups are also high. Considering such hindrances, people may neglect regular health check-ups, which may lead to their deteriorating health and quality of life. Also, without a health check-up, minor ailments such as increased blood pressure, light fever and other such ailments may go unnoticed and may lead to complications or deteriorated health and quality of life. Furthermore, if an ailment is such that, it not easily diagnosed, the person may have to visit multiple healthcare professionals to have the ailment diagnosed. This may lead to undue delays as well as expenses. In some cases, if it is diagnosed that, the ailment is of a minor nature, the time and money spent on its diagnosis would have been wasted. Such incidents may deter the person from visiting healthcare professionals for any future diagnosis, as they may feel that, it leads to undue expenses. In some scenarios, people may be at such locations, where access to healthcare
professionals may be difficult or the ratio of healthcare professionals to patients may be relatively low, leading to delays in gaining access to healthcare professionals. In some cases, certain ailments may require the services of specialist healthcare professionals, and owing to certain hindrances such as location, distance and other hindrances, people may find it difficult to gain access to such specialist healthcare professionals. Such hindrances may result in self-diagnosis and medication, which may prove detrimental to the health of the person.
[0005] In today’s scenario many appliances, module, applications, devices or any combination thereof are present to keep a check record of the at least one user health by giving a regular health assistance and by providing regular health guidance but still the market is in a lack of a device which is enabled to measure different the at least one user physiological parameters and transmit the measured various physiological parameters to a remote location which includes at least one of a list of emergency contact numbers, a list of hospital preferences, a list of insurance provider or any combination thereof and further receive a communication from any remote location. Also, the concept of an online wallet with virtual cash, wherein the virtual cash is to be credited by the at least one insurance provider having a health insurance cash and policy of the at least one user is a new concept to enroll for.
[0006] US20010051764 talks about a system designed to store any patient’s health information provide an analysis for the same and further compare the diagnosed results with the patients earlier existing records.
[0007] US20090069642 talks about a system designed to take patients data input. A processor which works on the set of instructions given by the user to determine the user health.
[0008] US20140297006 talks about a system designed to produce a physiological feedback and reward for engaging a user.
[0009] US20140378777 talks about noninvasively measuring various health parameters of the user and accordingly develop a baseline profile for the user.
[0010] But in the mentioned above prior art some fails including the feature of it being automatic and requires user input for the health diagnosis of the user. The system provided in the prior art
lacks being automatic or lacks providing a communication for the at least one user to the healthcare professional situated in any remote location then too in the real time.
[0011] Therefore, there remains a need to overcome above mentioned problems and our invention resolve this entire problem.
SUMMARY OF THE INVENTION:
[0012] The present invention relates to a wrist wearable diagnostic system enabled to non-invasively measure at least one physiological parameter of a user, compute the received information and send a notification to at least two of emergency contact number or at least one social media account at the time of any emergency. In an emergency, the user either communicate through health care professional or receives a nearby first aid or ambulance services, from same at least two of emergency contact numbers.
[0013] The wrist wearable diagnosis system herein is enabled to create the user profile by providing various information’s to the registration module, wherein the various information provided to the registration module includes at least three of
• a physical parameter of a user,
• a medical information of the user,
• a dietary information of the user,
• at least two emergency contact number to whom the user of the wrist wearable diagnosis system will contact to at the time of emergency,
• at least one social media contact information,
• an online wallet information having virtual cash, a medical insurance information.
Once the registration process of the user is completed, the wrist wearable diagnosis system activates its sensor module to monitor at least one physiological parameter of the user, in real time, at regular interval of time. Thereafter, the processing module receives the monitored information from the sensor module and triggers a notification upon determining the emergency condition of the user by computing the received monitoring information with the user information already stored in the registration module. The wrist wearable diagnosis system is
enabled to establish a communication via a communication module to enable the user to visually communicate with a healthcare professional of at least one hospital contact number. For providing much of easy-ability and mobility to the various health care service the user herein is also provided with an online wallet which stores virtual cash and is linked with the user’s at least one bank account insured with medical insurance done by the user. The medical insurance at at-least one bank is used to fill up the online wallet with virtual cash at the time of emergency.
BRIEF DESCRIPTION OF THE DRAWINGS:
[0014] The following drawings illustrates exemplary embodiment; however, they are helpful in illustrating objects, features and advantages of the present invention because the present invention will be more apparent from the following detailed description taken in conjunction with accompanying drawings in which:
[0015] FIG. 1 illustrates a wrist wearable diagnostic system, in accordance with an embodiment of the system,
[0016] FIG. 2 illustrates flow diagram for the wrist wearable diagnostic system, in accordance with one embodiment of the system.
DETAIL DESCRIPTION OF THE INVENTION:
[0017] Reference will now be made in detail to the exemplary embodiment (s) of the invention, examples of which are illustrated in the accompanying drawings. Whenever possible, the same reference numerals will be used throughout the drawings to refer to the same or like parts.
[0018] References to “one embodiment,” “at least one embodiment,” “an embodiment,” “one example,” “an example,” “for example,” and so on indicate that the embodiment(s) or example(s) may include a feature, structure, characteristic, property, element, or limitation but that not every embodiment or example necessarily includes that feature, structure, characteristic, property, element, or limitation. Further, repeated use of the phrase “in an embodiment” does not necessarily refer to the same embodiment.
[0019] Fig. 1 illustrates wrist wearable diagnostic system [100], the wrist wearable diagnostic system [100] is in the form of a watch, a bracelet or any combination thereof to be worn on the
at least one user wrist but the scope of the invention is not limited to only this. The wrist wearable diagnostic system [100] comprises a registration module to store a profile of the user, wherein the profile includes a physical parameter, a medical information, a dietary information, at least two emergency contact number, at least one social media account information and a medical insurance information. The wrist wearable diagnostic system [100] is enabled to sense the real-time at least one physiological parameter of user to create a comparison between the stored profile information and the real time monitored at least one physiological parameter of the user. Any variation which is not positive for the user health enables the processing module of the wrist wearable diagnostic system [100] to raise an alarm in form of a notification to the at least two emergency contact numbers such as friend’s contact number, a family member contact number, hospital contact number & ambulance contact number and post the same to the at least one social media account of the user. The notification in the form of alarm enable the user to seek help, assistance or any guidance by the nearby friend, hospital, ambulance in case of any emergency and when the user is not in severe emergency the communication module of the wrist wearable diagnostic module enables the user to visually communicate with a healthcare professional of at least one hospital contact number to seek guidance. The various modules configured with the wrist wearable diagnostic system [100] are as follows:
• a registration module [not shown],
• a sensor module [not shown],
• a processing module [not shown],
• a communication module [not shown],
• an analytic module [not shown],
• a comparison module [not shown],
• a power button [106]
• a SOS button [104], and
• a transmitting module [108].
[0020] The registration module herein is present on a server, wherein the server has a pre-determined database to store one or more information gathered from the user. The one or more information further comprises at least of three of:
I. a physical parameter, wherein the physical parameter further comprises an age, a height, a gender, any information relating to the user at least one physical parameter or any combination thereof;
II. a medical information, wherein the medical information comprises at least one predetermined physiological parameter, wherein the at least one pre-determined physiological parameter includes the user normal blood pressure, normal sugar content, normal cholesterol level, normal pulse rate, normal heart rate, normal body temperature, or any combination thereof;
III. a dietary information, wherein the dietary information comprises at least one of eating habits, calories intake per meal, timing information of a meal intake, bed timing, wakeup timings, work timing, a prescribed medicinal intake or any combination thereof;
IV. at least two of emergency contact number including a friend’s contact number, a family member contact number, hospital contact number, ambulance contact number;
V. at least one social media account information for posting an emergency information of the user for the various contacts present on the at least one social media account and further seek help from the contact nearest to the user location,
VI. an online wallet information, wherein the online wallet herein stores a virtual cash and is linked with the user at least one bank account insured with a medical insurance done by the user. The medical insurance in at-least one bank is used to fill up the online wallet with virtual cash at the time of emergency; and
VII. a medical insurance information, the medical insurance information of the user relating to at-least one bank is used to fill up the online wallet with virtual cash at the time of emergency of the same user.
[0021] The sensor module configured with the wrist wearable diagnostic module is enabled to monitor a real time the at least one physiological parameter of the at least one user, wherein the real time at least one physiological parameter includes at least one of a body temperature, a mensuration information, a blood pressure, a calorie burnt, a water content, a proper respiration, a pulse count or the combination thereof of the user, also wherein the measurement of the at least one physiological parameter is done to perform a comparison operation in between the stored profile information and the real time monitored at least one physiological parameter of the user. Herein, the comparison is computed by the processing module. The sensor module herein further includes at least one of a heart rate sensor, a pulse rate detection sensor, a cholesterol check sensor, a respiratory sensor, a detection sensor, a water content sensor or any combination thereof. • Heart Rate Sensor: The heart rate sensor is used for measuring a real-time heart beat in BPM (beats per minute). The wrist wearable diagnosis system [100] herein takes assistance of the user various heart related activities with the help of the heart rate sensor to monitor the user normal/abnormal heart rate. The heart rate sensor reads the heartbeat of the user and send the monitored data to the server continuously which is connected to the wrist wearable diagnosis system to keep a health record of the user and further to draw a comparison of various health records created for the at least one user either for future analysis or for current analysis by the wrist wearable diagnosis system [100]. • The detection sensor: In a scenario of use of the detection sensor, an adult of 65 years of age experiences higher rates of falling and are generally at a higher risk for falls. One in every 3 persons over the age of 65 years are estimated to fall 1 or more times each year. Falls and fall related injuries represent a significant threat to the health and
independence of adults 65 years of age and older. To prevent this, the wrist wearable diagnosis system [100] make use a detection sensor. When the detection sensor detects a fall of the at least one user, it sends an immediate alert to at least two emergency contact number including a friend’s contact number, a family member contact number, hospital contact number, ambulance contact number and to at one social media account of the user, so that the user is immediately provided with help or with medical assistance either by remote guidance or by ambulance or first aid at his/her current location.
• The respiratory sensor: It enables monitoring oxygen intake and carbon di-oxide exhaled by the at least one user and hence keeps a track record of proper respiration of the at least one user.
• The water content sensor: The wrist wearable diagnosis system also comprises a water content sensor. The water content sensor when come in contact with the at least one user skin, measures the water be given out by his/her body in form of sweat and accordingly pass the monitored information to the processing module to create a comparison in between the normal water content, the at least one user body should have or between the present water content the at least one user body is having and accordingly calculate the level a user is lacking in. Also, the water content sensor suggests the at least one user to drink water by a notification which is displayed on a display screen of the wrist wearable diagnosis system [100] to maintain proper water level content inside the user body. Further this notification is generated every time when the user loses water by sweating while running, walking, jogging, doing work, or during some workout.
[0022] The processing module of the wrist wearable diagnosis system [100] is configured to obtain one or more information from the database associated with the registration module present on the server, wherein the database corresponds to the received physical parameter, medical information, dietary information along with the at least one real-time monitored physiological parameter. The processing module herein is enabled to make a comparison of the monitored real time at least one physiological parameter with the database values corresponding to physical parameter, medical information, dietary information and is further enabled to produce a notification of any variation detected, which is not positive. Once the comparison is
done the processing module finds any fluctuation or variation in the compared values which is not positive then the processing module raises an alarm in form of a notification which is further sent to the at least two emergency contact number, to at least one social medial account in form of an emergency post and to the at least one medical insurance, for immediately fill up the online wallet with some cash which can be further accessed by the hospital contact number present in the at least two emergency contact number. Herein, the work of transmission of the emergency notification to at least one of the list of emergency contact numbers and social media account is done with the transmitting module [108]. The transmitting module [108] herein transmits the information to a communication module to enable a healthcare professional from chosen at least one hospital contact number to simultaneously access the user one or more gathered information and visually communicate with the user. The communication established herein with the at least two emergency contact number is made either automatically on locating the nearest at least two emergency contact number available, wherein the automatic detection of the at least two emergency contact number is done by the GPS module present in the wrist wearable diagnosis system or is made manually by the friend or the family contact receiving the transmitted notification and in response to the received transmitted notification they select the nearest hospital contact to provide immediate help to the user. Further the visually communication with the user is done either in an off-line state or in an online state via a GSM unit or via a SOS accessed through SOS button [104]. The GSM unit supports a Nano SIM card which further supports a network up to 3G Band. In some areas, if 3G signals are not available then the GSM unit automatically rollover to lower band configuration. GSM unit configured with the wrist wearable diagnosis system [100] provides the user a facility to send his/her health-related data like heart rate, body temperature or any combination thereof on a server so that the health of the user can be monitored by the health care professionals remotely. In an off-line state, the user makes use of the SOS technology via SOS button [104] where the wrist wearable diagnosis system [100] is enabled to send an emergency notification of the user critical health condition by a simple click of the SOS button [104]. Further, the communication module comprises a visual communication medium operably configured with the wrist wearable diagnostic system [100] which enables a healthcare professional at the remote location to simultaneously access
the at least one user diagnosed at least one physiological parameter and visually communicate with the user. The visual communication medium herein includes any smart device to enable the user/healthcare professional to indulge in audio/ video communication with each other. Further, the wrist wearable diagnostic system [100] enable the user to carry video conference with at least two healthcare professionals at a time. The healthcare professional further has access to the user’s at least one physiological parameter stored and real time monitored at least one physiological parameter. The healthcare professional upon accessing the user at least one physiological parameter provides remedies and advise to the user for good health. Further, the healthcare professional is also able to remotely access the wrist wearable diagnostic system [100] and configure its settings and working according to the user need/location/country and time. The wrist wearable diagnostic system [100] is enabled to locate the user location and his/her country where he/she is residing with the help of the GPS module and is further enabled to change the setting of the wrist wearable diagnosis system [100]. The setting of the wrist wearable diagnosis system [100] includes changing information relating to a longitude, a latitude, a height or any combination thereof of the country in which the user is residing. There exists different location in the same country some location is warm some are cold some are humid some just lack humidity in such scenario the wrist wearable diagnosis system [100] is enabled to locate the right location of the at least one user and is further enabled to change the various setting of the wrist wearable diagnosis system [100] likewise. If the country is warm the wrist wearable diagnosis system [100] will suggest precautions accordingly similar goes with when the country is humid or cold. Further the wrist wearable diagnostic system [100] on confirming the location of the user also take a record of the humidity level, level of warmth or level of coldness of a location and give various recommendation relating to the user health accordingly. The wrist wearable diagnosis system [100] is enabled to automatically adjust itself according to location and according to the country input given by the GPS module. According to the automatically changed location setting, the wrist wearable diagnosis system [100] decides the various parameters including the day and the night timing, the breakfast timing, the lunch timings or the dinner timing, the medicine intake schedule, the morning or evening walk schedule, the sleep schedule or any daily schedule of the user and accordingly makes manipulation in the physiological parameters stored in the database.
The health care professional is also enabled to remotely access the wrist wearable diagnostic system [100] of the at least one user and configure to change it settings and working. The analytical module of the wrist wearable diagnostic system [100] is enabled to take inputs from the sensor module and further create a history of the sensor module output in the database on the server to provide the user an analyzed detail of improving or deteriorating health conditions records in the form of the graphs or in the form of a pictorial representation which is shown on the wrist wearable diagnosis system [100] display screen. The analytical module further helps the user to keep a check record of either his/her improving or deteriorating health conditions and take his/her proper care accordingly. Parallelly, the analytical module also enables the at least one user to either download or to online save the created at least one graph or the pictorial representation for his/her future use. The comparison module configured to the wrist wearable diagnosis system but operable-ly responsive to the analytical module output is enabled to share the various graphs or the various pictorial representation onto at least one web portals by the user consent and further enables the comparison of the user output on the web portal with an output of the user given by the wrist wearable diagnosis system analytical module. The comparison done by the comparison module further creates an enthusiasm in the user to take proper care of his/her health condition on seeing others growing good and taking their proper care. The wrist wearable diagnostic system [100] further comprises a power button [106], wherein the power button [106] is enabled to perform various function which includes at least one of:
• popping up of a menu bar onto the display screen for showing various features of the wrist wearable diagnostic system [100] and further enabling the at least one user to select any feature from his/her menu bar,
• switching the power ON/OFF for the wrist wearable diagnostic system [100],
• capturing various screen shot of the displayed data or the result of the various measured physiological data on the display screen of the wrist wearable diagnostic system [100].
The wrist wearable diagnostic system [100] is also provided with a detachable and an adjustable strap enabled to get attached to anybody portion, wherein the strap is further provided with assorted colors, sizes, and shapes. Also at the time of sending notification the at least two
emergency contact number, to at least one social media account and to at least one medical insurer holding an insurance policy of the user, the notification alarm is of higher pitch than all other notification updates which therefore enables the various contact to get an immediate intimation of the user emergency.
[0023] Fig. 2 illustrates a flow diagram [100] for the present invention.
[0024] Step. 102 of Fig. 2 illustrates the process of signing up on to the web page of the wrist wearable diagnostic system. The process of signing up to the web page by the at least one user takes place manually. In this case, the user have to provide the wrist wearable diagnostic system a manual input of all his/her physical parameters, medical information, dietary information, at least two emergency contacts, at least one social media account information, an online wallet information and a medical insurance information to link the medical insurance cash with the online wallet present on the server. The process of profile creating is conducted by the registration module present on a server. The user is enabled to create a profile on a web page associated with registration module. The said server has a pre-determined database to store one or more information gathered from the user and wherein the one or more information further comprises at least of three of:
I. a physical parameter, wherein the physical parameter further comprises an age, a height, a gender, any information relating to the user at least one physical parameter or any combination thereof;
II. a medical information, wherein the medical information comprises at least one predetermined physiological parameter, wherein the at least one pre-determined physiological parameter includes the user normal blood pressure, normal sugar content, normal cholesterol level, normal pulse rate, normal heart rate, normal body temperature, or any combination thereof;
III. a dietary information, wherein the dietary information comprises at least one of eating habits, calories intake per meal, timing information of a meal intake, bed timing, wakeup timings, work timing, a prescribed medicinal intake or any combination thereof;
IV. at least two of emergency contact number including a friend’s contact number, a family member contact number, hospital contact number, ambulance contact number;
V. at least one social media account information for posting an emergency information of the user for the various contacts present on the at least one social media account and further seek help from the contact nearest to the user location,
VI. an online wallet information, wherein the online wallet herein stores a virtual cash and is linked with the user at least one bank account insured with a medical insurance done by the user. The medical insurance in at-least one bank is used to fill up the online wallet with virtual cash at the time of emergency; and
VII. a medical insurance information, the medical insurance information of the user relating to at-least one bank is used to fill up the online wallet with virtual cash at the time of emergency of the same user.
[0025] Step. 104 of Fig. 2 illustrates a real-time monitoring of the at least one physiological parameter of the user after a regular interval of time, wherein the monitoring is being done by the sensor module comprising sensors like: a heart rate sensor, a pulse rate detection sensor, a cholesterol check sensor, a respiratory sensor or any combination thereof also the scope of the sensor is not limited to only this. The sensor module herein is enabled to monitor a real time, at regular interval the at least one physiological parameter of the user for future comparison by the analytical module.
[0026] Step. 106 of Fig. 2 illustrates the process wherein the processing module is enabled to make a comparison of the monitored real time at least one physiological parameter with the database values corresponding to physical parameter, medical information, dietary information and is further enabled to produce a notification of any variation detected, which is not positive. Once the comparison is done the processing module finds any fluctuation or variation in the compared values which is not positive then the processing module raises an alarm in form of a
notification which is further sent to the at least two emergency contact number, to at least one social medial account in form of an emergency post and to the at least one medical insurance, for immediately fill up the online wallet with some cash which can be further accessed by the hospital contact number present in the at least two emergency contact number.
[0027] Step. 108 of Fig. 2 illustrates a process in which the transmitting module is enable to transmit the notification produced by the processing module to the at least two emergency contact number, to the at least one social media contact in form of emergency arrived post and to the at least one medical insurer holding a medical insurance of the user. The at least two emergency contact number herein includes a friend’s contact number, a family member contact number, hospital contact number, ambulance contact number and at least one social media contact includes a twitter account, a Facebook account, Instagram account, a link din account or any combination thereof.
[0028] In a preferred embodiment, the user is in case of emergency. The wrist wearable diagnosis system [100] will detect the real-time at least one physiological parameter with the help of the sensor module and send the gathered one or more real-time information to the server already having an updated profile of the user. The profile herein of the user is being created with the help of the registration module which has a database to store all gathered information of the user for the future use at the time of the emergency. On comparison, done by the processing module of the already stored information with the real time at least one physiological parameter, the processing module if finds any variation which is not positive for the user body and detects an emergency condition for the user, it immediately generate a notification in the form of high pitched alarm. The notification is then transmitted to transmitting module for further sending it to the at least two nearest emergency contacts, to the at least one social media account and to the at least one medical insurer holding medical insurance policy of the user. This process further enables the at least two emergency contact number of the user to either book a remote assistance for the user in emergency for any person present on the location of the user to treat the user immediately on seeing the guidelines provided in the assistance or to book an immediate “come to location” assistance for the user to receive a first aid or an ambulance at the current location. The wrist wearable diagnostic module is also provided with an online wallet so the user
does not have to suffer from delay of money used as assistance fee of the hospital. This online wallet is to be credited either by the user before handedly or is credited by the at least one medical insurer holding the user medical insurance policy. The time when the hospital accesses the online wallet of the user the at least one medical insurer makes sure that the cash is been dispensed for the right reason on taking all details of the user physiological parameters and accessing them simultaneously.
[0029] In other embodiment, the wrist wearable diagnosis system also comprises a detection sensor. In a scenario of user, an adult of 65 years of age experiences higher rates of falling and are generally at a higher risk for falls. One in every 3 persons over the age of 65 years are estimated to fall 1 or more times each year. Falls and fall related injuries represent a significant threat to the health and independence of adults 65 years of age and older. To prevent this, the wrist wearable diagnosis system make use a detection sensor. When the detection sensor detects a fall of the at least one user who is old, it sends immediate alert to the at least two emergency contacts, for providing help or with medical assistance either remotely or at his/her current location. [0030] In another embodiment the user when is not sick and only need medical assistance, the communication module of the wrist wearable diagnostic module enables a healthcare professional from the selected or nearest at least one hospital from the list of the hospital preferences at a remote location to simultaneously access the user one or more gathered information and visually communicate with the at least one user either off-line or online. The user is also enabled to continuously monitor his/her health condition by the analytical module, wherein the analytical module receives the physiological information of the user at regular interval of time. Thereafter, the analytical module analyzes the received data and prepares a record of user’s heath for a period of time. The analytical module enables the user to keep a check on either his/her improving or deteriorating health conditions and take his/her proper care accordingly. Parallelly, the analytical module enables the at least one user to either download or online save the analyzed history details, created at least one graph or the pictorial representation representing the health condition of the at least one user and enables the at least one user to
keep it for his/her future use. The wrist wearable diagnostic module also comprises the comparison module which is enabled to take inputs from the sensor module and further create a history of the sensor module output in the database on the cloud server to provide the at least one user an analyzed detailed improving or deteriorating health conditions records in the form of the graphs or any pictorial representation which is shown on the wrist wearable diagnosis system display screen. The comparison module is also operable-ly responsive to the analytical module output is enabled to share the various graphs or the various pictorial representation onto at least one web portals by the at least one user consent and further enable the comparison of the user health output with the health output of other user of the wrist wearable diagnosis system. The comparison done by the comparison module further creates an enthusiasm in the at least one user to take proper care of his/her health condition on seeing others growing good and taking their proper care. [0031] In yet another embodiment, the wrist wearable diagnosis system further supports a pedometer, wherein on using a pedometer or step counter is an easy and fun way to track how active the at least one user is. It also adds up all the steps the at least one user is taking during the day. Using a pedometer can remind the at least one user to walk more. A quick check show that the at least one user needs more steps for the day. Using a pedometer helps the at least one user to set goals to take more steps in a day. The user need to find creative ways to add more steps, but walking more will help the at least one user to get more exercise, feel better, and stay healthy.
[0032] Although the invention has been explained in relation to its preferred embodiment, it is to be understood that many other possible modifications and variations can be made without departing from the spirit and scope of the invention.

WHAT IS CLAIMED IS:
1- A wrist wearable diagnostic system for non-invasively real time measuring at least one physiological parameter of a user comprises:
a) a registration module, wherein the registration module is enabled to create the user profile upon receiving information on at least three of:
• a physical parameter, wherein the physical parameter further comprises an age, a height, a gender;
• a medical information, wherein the medical information comprises plurality of predetermined physiological parameters;
• a dietary information, wherein the dietary information comprises at least one of eating habits, calories intake per meal, timing information of each, a prescribed medicinal intake;
• at least two of emergency contact number including a friend’s contact number, a family member contact number, hospital contact number, ambulance contact number;
• at least one social media account information,
• an online wallet information;
• a medical insurance information;
b) a sensor module, wherein the sensor module is enabled to monitor at least one physiological parameter, real time, at a regular interval of time;
c) a processing module, configured to receive monitoring information from the sensor module and trigger a notification upon determining the emergency condition of the user by computing the received monitoring information with the user information, stored in the registration module; and
d) a transmitting module to transmit the notification, produced by the processing module, to the at least one of the list of emergency contact numbers and social media account.
2- The wrist wearable diagnostic system in claim 1, wherein the wrist wearable diagnostic system further comprises a communication module to enable the user to visually communicate with a healthcare professional of at least one hospital contact number.
3- The wrist wearable diagnostic system in claim 2, wherein the communication by the communication module is done either by a GSM technology or by a SOS button.
4- The wrist wearable diagnostic system in claim 1, wherein the wrist wearable diagnostic system further comprises a detection sensor to detect a fall of the user and further transmit the information to the processing module for generating a notification.
5- The wrist wearable diagnostic system in claim 1, wherein the wrist wearable diagnostic system further comprises a GPS module to detect the location of a user.
6- The wrist wearable diagnostic system in claim 1, wherein the wrist wearable diagnostic system also comprises an analytical module, wherein the analytical module is enabled to receive information from the processing module over a period of time for creating a detailed analyzed output of user’s health.
7- The wrist wearable diagnostic system in claim 1, wherein the wearable diagnosis system further comprises a comparison module, operable-ly responsive to the analytical module, wherein the comparison module is enabled to generate a comparison of the user’s health detailed analyzed output with a detailed analyzed output of another user of the wrist wearable diagnosis system, over the social media account of the user.
8- The wrist wearable diagnostic system in claim 1, wherein the notification upon determining the emergency condition of the user is in a form of high-pitch alarm to notify at least two of emergency contact number.
9- A method for non-invasively measuring at least one physiological parameter of a user by a wrist wearable diagnosis system comprises the steps of:
a) creating a profile by a registration module, wherein the registration module is enabled to create the user profile upon receiving information on at least three of:
• a physical parameter, wherein the physical parameter further comprises an age, a height, a gender;
• a medical information, wherein the medical information comprises plurality of predetermined physiological parameters;
• a dietary information, wherein the dietary information comprises at least one of eating habits, calories intake per meal, timing information of each, a prescribed medicinal intake;
• at least two of emergency contact number including a friend’s contact number, a family member contact number, hospital contact number, ambulance contact number;
• at least one social media account information,
• an online wallet information;
• a medical insurance information;
b. monitoring at least one physiological parameter, real time, at a regular interval of time by a sensor module;
c. receiving monitoring information by a processing module from the sensor module and triggering a notification upon determining the emergency condition of the user by computing the received monitoring information with the user information, stored in the registration module; and
d. transmitting the notification, produced by the processing module, to the at least one of the list of emergency contact numbers and social media account by a transmitting module.
10- The wrist wearable diagnostic system in claim 9, wherein the wrist wearable diagnostic system further comprises a communication module to enable the user to visually communicate with a healthcare professional of at least one hospital contact number.
11- The wrist wearable diagnostic system in claim 10, wherein the communication by the communication module is done either by a GSM technology or by a SOS button.
12- The wrist wearable diagnostic system in claim 9, wherein the wrist wearable diagnostic system further comprises a detection sensor to detect a fall of the user and further
transmit the information to the processing module for generating a notification to notify at least two of emergency contact number.
13- The wrist wearable diagnostic system in claim 9, wherein the wrist wearable diagnostic system further comprises a GPS module to detect the location of a user.
14- The wrist wearable diagnostic system in claim 9, wherein the wrist wearable diagnostic system also comprises an analytical module, wherein the analytical module is enabled to receive information from the processing module over a period of time for creating a detailed analyzed output of user’s health.
15- The wrist wearable diagnostic system in claim 9, wherein the wearable diagnosis system further comprises a comparison module, operable-ly responsive to the analytical module, wherein the comparison module is enabled to generate a comparison of the user’s health detailed analyzed output with a detailed analyzed output of another user of the wrist wearable diagnosis system, over the social media account of the user.
16- The wrist wearable diagnostic system in claim 9, wherein the notification upon determining the emergency condition of the user is in a form of high-pitch alarm to notify at least two of emergency contact number.