Description:FIELD OF THE INVENTION

[0001] The present invention relates to a wearable sleeping aid device that provides assistance to a user for achieving a restful sleep by regulating the sleeping environment through various comfort-enhancing solution, which in turn promotes relaxation and reduce restlessness, enabling the user to attain a deep and uninterrupted sleep.

BACKGROUND OF THE INVENTION

[0002] A restful sleep is essential for individuals to maintain their physical and mental well-being. People suffering from sleep disorders such as insomnia, sleep apnea, and restless leg syndrome often struggle to attain quality sleep. In such cases, a concerned person may try to help the individual establish a relaxing sleep environment. However, there might be chances of inadequate sleep support during such instances, especially in cases where the individual requires specialized care. In such cases, the concerned person may try to provide support through personal means, but may lack the necessary expertise to address the individual's specific sleep needs.

[0003] Sometimes, depending on the individual's sleep patterns and environment, there are chances of difficulty in falling asleep or staying asleep. Basically, a consistent sleep schedule is recommended for individuals to establish a restful sleep routine. But due to factors such as stress, anxiety, and discomfort, the sleep quality could vary from night to night. Because of lack of efficient sleep support, it leads to fatigue, decreased productivity, and other sleep-related problems.

[0004] However, inadequate sleep support becomes a major obstacle for individuals to receive restful sleep that may worsen their condition, in this case the individual also needs to rely on personal means to attain sleep. However, while relying on personal means to sleep, there are chances of facing distractions and discomforts that may disrupt sleep. Moreover, healthcare professionals may not be aware regarding the individual's sleep quality, and hence, the individual may not receive personalized guidance to address their sleep needs. Therefore, there is a huge requirement of such a system that provides personalized sleep support and enables individuals to attain restful sleep.

[0005] TWI798955B discloses an intelligent sleep aid wearable device, which is worn on a wearer's head and can be connected to an external electronic device. The device includes a wearable unit, a detecting controlling unit and a conducting unit. The wearable unit includes an eye mask, which has an eye-shielding part, two conducting parts and a fixing part. The detecting controlling unit includes a microcontroller, a heart rate sensor and a power supply. The conducting unit includes at least one sound output module and a communication module. The external electronic device can transmit sound data to the microcontroller and send out a sound through the sound output module. The heart rate sensor can sense the wearer's heart rate and send the heart rate data back to the microcontroller. The microcontroller can make judgments based on the heart rate data and control the sound output module to send different sound to the wearer.

[0006] CN107427665B discloses a wearable device for sleep assistance, comprising: at least one sensor for detecting one or several vital signs of a user of the wearable device; a memory for storing a set of sleep assistance techniques; and an interface for receiving a selection of a sleep assistance technology from a set of sleep assistance technologies. Each sleep aid technique includes instructions to promote the user falling asleep and is associated with an estimated drowsiness time for the sleep aid technique to affect the user following the instructions; the wearable device also includes a processor to update the doze-off time based on the vital signs of the user, to determine a schedule for performing at least one predetermined action based on the updated doze-off time, and to perform the predetermined action schedule according to the predetermined action.

[0007] Conventionally, there exist many devices that are capable of helping in achieving a restful and refreshing sleep, however, these existing devices fail to minimize distractions and promote a restful state. In addition, these existing devices are also insufficient in providing optimal comfort and support to the user's head and neck while sleeping.

[0008] In order to overcome the aforementioned drawbacks, there exists a need in the art to develop a device that requires to be capable of creating a comfortable and supportive environment while sleeping by minimizing distractions and promoting a restful state. Furthermore, the developed device also needs to be potent enough to provide optimal comfort and support to the user's head and neck while sleeping.

OBJECTS OF THE INVENTION

[0009] The principal object of the present invention is to overcome the disadvantages of the prior art.

[0010] An object of the present invention is to develop a device that is capable of helping users to achieve a restful and refreshing sleep by creating a comfortable and supportive environment that promotes relaxation and reduces restlessness.

[0011] Another object of the present invention is to develop a device that is capable of enabling users to attain a deeper level of sleep, essential for physical and mental rejuvenation, by minimizing distractions and promoting a restful state.

[0012] Another object of the present invention is to develop a device that is capable of detecting and responding to the user's sleep patterns, including restlessness and disruptions, to promote a restful and uninterrupted sleep.

[0013] Another object of the present invention is to develop a device that is capable of providing optimal comfort and support to the user's head and neck, reducing pressure points and promoting relaxation, ensuring a comfortable sleeping environment.

[0014] Yet another object of the present invention is to develop a device that is capable of monitoring and providing insights into the user's sleep quality and overall health, helping users wake up feeling refreshed, revitalized, and ready to take on the day.

[0015] The foregoing and other objects, features, and advantages of the present invention will become readily apparent upon further review of the following detailed description of the preferred embodiment as illustrated in the accompanying drawings.

SUMMARY OF THE INVENTION

[0016] The present invention relates to a wearable sleeping aid device that monitors vital health parameters of the user along with detecting restlessness of a user while sleeping and notifies a concerned person regarding the user's sleep quality and health status for enabling them to initiate necessary actions for improvement.

[0017] According to an embodiment of the present invention, a wearable sleeping aid device, comprising a curved-shaped body that fits over the user's eyes during sleep, secured by a curved-shaped member that wraps around the back of the head, the body comprises a first and second layer, with the first layer designed to block light and the second layer constructed from cushioning material for comfort. A user-interface integrated into a first computing unit, wirelessly connected to the device, enables users to select between a first and second sleep mode. The first sleep mode corresponds to normal sleep, while the second sleep mode is designed for deep sleep, an inbuilt microcontroller processes the user's sleep mode selection and generates a sequential command accordingly. A pair of hollow patches arranged at the inner periphery of the body, containing polyacrylate gel that provides cold therapy to the user's eyes, a pair of vibrating units configured with the curved-shaped member provide a mild massage to the user's head portion, promoting sleep.

[0018] According to another embodiment of the present invention, the proposed device further comprises of multiple inflatable pouches arranged on the curved-shaped member, each equipped with an electronic valve connected to an air compressor, adjust to provide comfort to the user's head portion. Pressure sensors equipped with each pouch detect contact with the sleeping surface and trigger the microcontroller to inflate the corresponding pouches. A pair of electromagnetic springs installed with the curved-shaped member, each equipped with a cotton plug that facilitates deep sleep by inserting the cotton plugs into the user's ears. Furthermore, an electronic sprayer attached to the body, with a chamber storing fragrance liquid, sprays the liquid to create a soothing aroma, promoting deep sleep, an accelerometer configured on the body detects undesired motion, indicating restlessness, and triggers the speaker to play pacifying sounds, accompanied by controlled vibrations from the vibrating units, a GPS module linked with the microcontroller that detects the user's real-time location, as well as a FBG sensor that monitors the user's vital health parameters. A microphone arranged on the body detects snoring and triggers adjustments to the inflatable pouches to change the user's head position, thereby provides a comfortable and restful sleep experience.

[0019] While the invention has been described and shown with particular reference to the preferred embodiment, it will be apparent that variations might be possible that would fall within the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, appended claims, and accompanying drawings where:
Figure 1 illustrates an isometric view of a wearable sleeping aid device.

DETAILED DESCRIPTION OF THE INVENTION

[0021] The following description includes the preferred best mode of one embodiment of the present invention. It will be clear from this description of the invention that the invention is not limited to these illustrated embodiments but that the invention also includes a variety of modifications and embodiments thereto. Therefore, the present description should be seen as illustrative and not limiting. While the invention is susceptible to various modifications and alternative constructions, it should be understood, that there is no intention to limit the invention to the specific form disclosed, but, on the contrary, the invention is to cover all modifications, alternative constructions, and equivalents falling within the spirit and scope of the invention as defined in the claims.

[0022] In any embodiment described herein, the open-ended terms "comprising," "comprises,” and the like (which are synonymous with "including," "having” and "characterized by") may be replaced by the respective partially closed phrases "consisting essentially of," consists essentially of," and the like or the respective closed phrases "consisting of," "consists of, the like.

[0023] As used herein, the singular forms “a,” “an,” and “the” designate both the singular and the plural, unless expressly stated to designate the singular only.

[0024] The present invention relates to a wearable sleeping aid device that enables users to attain restful sleep while simultaneously tracking their vital health metrics, identifying periods of restlessness, and alerting designated individuals to the user's sleep quality and overall well-being, facilitating timely interventions and improvements.

[0025] Referring to Figure 1, an isometric view of a wearable sleeping aid device is illustrated, comprising a curved-shaped body 101 equipped with a curved-shaped member 102, a pair of vibrating units 103 configured with the member 102, plurality of inflatable pouches 104 arranged on the member 102 and each configured with an electronic valve 105, connected with an air compressor 106, a pair of electromagnetic springs 107 installed with the member 102 and each equipped with a cotton plug 108, an electronic sprayer 109 attached with a chamber 110 and configured on the body 101, a speaker 111 mounted on the body 101, a pair of hollow patches 112 are arranged at inner periphery of the body 101 and a microphone 113 arranged on the body 101.

[0026] The device disclosed herein comprises a curved-shaped body 101 that serves as a main structure of the device and is designed to be positioned over a user's eyes during sleep. The body 101 described herein comprises a dual-layer construction, consisting of a first layer fabricated from a washable, opaque material, and a second layer comprising a cushioned material. The primary function of the first layer is to occlude external light from entering the user's eyes, thereby facilitating improved sleep quality. Conversely, the second layer provides comfort and support to the user's eyes and nasal region.

[0027] The body 101 incorporates a pair of hollow patches 112 at its inner periphery, typically filled with polyacrylate gel, which provides cold therapy to the user's eyes. When the patches 112 become warm due to prolonged use, the user needs to simply refrigerate them for a short period to restore their cooling efficacy, ensuring ongoing relaxation and eye comfort. These patches 112 are situated between the second and third layers of the device.

[0028] The body 101 is equipped with a curved-shaped member 102 that is secured around the posterior portion of the user's head for maintaining the body 101 in place over the user's eyes. The member 102 is fabricated from a stretchable or elastic material, characterized by its softness, durability, and adjustability, which enables the member 102 to fit securely and comfortably over the entire head portion of the user, thereby preventing discomfort or tightness during use.

[0029] After securing the body 101 over the user’s eyes, the user needs to activate the device by pressing a push button installed on the body 101. The push button typically consists of a button cap which is the visible rounded part of the button that the user presses. When the user pushes the push button, it pushes down a plunger, which is a small rod or a cylinder. Inside the push button, there are electrical contacts made of electrical materials like metal. When the user presses the push button, it completes the electrical circuit, allowing current to flow and triggering an inbuilt microcontroller’s operation, which is associated with the device.

[0030] Upon activating the device, the user is required to provide an input command via a user-interface installed on a first computing unit, which is wirelessly linked to the microcontroller. The input command pertains to the selection of a sleep mode, wherein two modes are available, a first mode corresponding to normal sleep and a second mode corresponding to deep sleep.

[0031] In response to the input commands, the microcontroller processes the user-selected commands and generates a corresponding sequence of commands. Subsequently, the microcontroller activates a pair of vibrating units 103 embedded in the member 102, which produces a mild vibration to provide a soothing massage to the user's head portion, thereby facilitating improved sleep. The vibrating unit 103 mentioned herein uses piezoelectric materials that generate a vibration when an electric current is applied. When a voltage is applied to the material, it expands or contracts, creating a vibration. The expansion or contraction creates a mechanical stress in the material, which generates a vibration. This vibration is then transmitted to the member 102, causing it to oscillate and provide a soothing massage to the user's head portion.

[0032] In an embodiment of the present invention, the vibrating unit 103 is also capable to use linear resonant actuator, which consists of a magnetic coil and a spring-mass mechanism to create a vibration. When an electric current flows through the coil, it interacts with a magnetic field, causing the spring-mass mechanism to vibrate. This interaction causes the metal component to move back and forth, creating a vibration. The vibration is then amplified by a spring-mass arrangement, which is tuned to resonate at a specific frequency. The amplified vibration is transmitted to the member 102, causing it to oscillate and provide a soothing massage to the user's head portion.

[0033] In another embodiment of the present invention, the vibrating unit 103 operates on the principle of electromechanical conversion. Internally, the unit consists of a small electric motor, an eccentric weight, and a transmission mechanism. When the microcontroller sends a signal to the vibrating units 103, the electric motor is activated, causing the eccentric weight to rotate. As the eccentric weight rotates, it creates a centrifugal force that generates a vibration. The transmission mechanism, typically a gear or cam arrangement, amplifies and transmits this vibration to the member 102, causing it to oscillate. The frequency and amplitude of the vibration can be controlled by adjusting the speed of the motor and the design of the transmission mechanism. The vibrating units 103 is designed to produce a mild vibration that provides a soothing massage to the user's head portion. The vibration frequency is typically in the range of 50-200 Hz, which is gentle enough to promote relaxation without causing discomfort. The amplitude of the vibration is also carefully controlled to ensure that it is perceptible but not overwhelming.

[0034] A plurality of inflatable pouches 104 is arranged on the member 102, each configured with an electronic valve 105 connected to an air compressor 106. The microcontroller, via a pressure sensor equipped with each pouch, determines which pouches 104 are in contact with the surface supporting the user. As the user lies down on the surface, the pressure sensors detect the changes in pressure inside each pouch. The sensors send this data to the microcontroller, which analyses the information to determine which pouches 104 are in contact with the user's head.

[0035] Based on the data received from the pressure sensors, the microcontroller sends signals to the electronic valve 105 to open or close. The valve 105 associated with the pouches 104 that are in contact with the user's head open, allowing air to flow into the pouches 104. As the valve 105 open, the microcontroller sends a signal to the air compressor 106 to activate. The compressor 106 generates a stream of compressed air that flows through the open valve 105 and into the pouches 104. The compressed air inflates the pouches 104, providing support and comfort to the user's head. The pressure sensors continue to monitor the pressure inside each pouch, sending data to the microcontroller.

[0036] The microcontroller uses the data from the pressure sensors to regulate the pressure inside each pouch. If the pressure becomes too high or too low, the microcontroller adjusts the air compressor’s 106 output or closes/open the valve 105 to maintain the optimal pressure.

[0037] When the user-selected mode corresponds to the second mode, the microcontroller activates a pair of electromagnetic springs 107 installed on the member 102. Each spring is equipped with a cotton plug 108 at its distal end, which expands and inserts into the user's ears, facilitating deep sleep. The electromagnetic springs 107 are designed with specialized electromagnetic properties, generating a controlled magnetic field when an electric current is passed through them. This magnetic field enables adjustments to the force applied by the spring. The electromagnetic springs 107 permit dynamic adjustments, allowing the plug 108 to automatically adjust within the user's ears.

[0038] Simultaneously, the microcontroller actuates an electronic sprayer 109 configured on the body 101 and is attached to a chamber 110 containing a fragrance liquid. The sprayer 109 disperses the fragrance liquid, releasing a pleasant aroma around the user, thereby facilitating deep sleep. The electronic sprayer 109 uses a combination of air pressure and vibration to atomize the fragrance liquid into a fine mist. When the fragrance liquid flows into the sprayer 109, it is mixed with compressed air, which creates a high-pressure mixture. This mixture is then forced through a small nozzle, creating a fine spray of fragrance liquid that is released into the air.

[0039] As the fragrance liquid is sprayed into the air, it disperses quickly, releasing a pleasant aroma around the user. The fragrance liquid is designed to have a calming effect on the user, promoting relaxation and deep sleep. The electronic sprayer 109 continues to operate until the microcontroller sends a signal to shut it off, ensuring that the user receives a consistent and soothing aroma throughout their sleep cycle.

[0040] An accelerometer is configured on the body 101 to detect undesired motion of the user while wearing the body 101, indicating restlessness. The accelerometer used in this application is a MEMS (micro-electromechanical systems) that measures the acceleration of the user's body 101. The accelerometer works on the principle of inertia, where a small mass is suspended within a housing and is free to move in response to changes in acceleration. When the user's body 101 moves, the accelerometer's housing moves with it, causing the suspended mass to lag behind due to its inertia.

[0041] When the user's body 101 accelerates, the proof mass lags behind due to its inertia, causing it to move relative to the body 101. This movement is detected by the sensing electrodes, which provide an output signal that is proportional to the acceleration. The output signal is then processed by the microcontroller and in response, the microcontroller activates a speaker 111 mounted on the body 101 to play pacifying sounds, while simultaneously activating the vibrating units 103 to provide controlled vibrations to the user's head portion, thereby inducing a soothing effect and facilitating sleep.

[0042] The speaker 111 is capable of producing clear and natural sound and is capable of adjusting its volume based on ambient noise levels. The speaker 111 consists of audio information, which is in the form of recorded voice, synthesized voice, or other sounds, generated or stored as digital data. This data is often in the form of an audio file. The digital audio data is sent to a digital-to-analog converter (DAC). The DAC converts the digital data into analog electrical signals. The analog signal is often weak and needs to be amplified. An amplifier boosts the strength to a level so that the speaker 111 drives it effectively. The amplified audio signal is then sent to the speaker 111. The core of the speaker 111 is an electromagnet attached to a flexible cone. These sound waves travel through the air as pressure waves and are picked by the user’s ear. Concurrently, the vibrating units 103 are activated to deliver controlled vibrations to the user's head portion, thereby inducing a soothing effect that facilitates sleep.
• If the user is still unable to calm down, the vibrating units 103 gently provide vibration therapy near the eyes. This gentle vibration helps in relaxing the user by stimulating pressure points around the eye area, promoting a sense of comfort an encouraging the user to fall back asleep.

[0043] For instance, when the user needs to be woken up, the speaker 111 play calming devotional sounds or a cheerful “GOOD MORNING” message. The user is also free to adjust these sounds to create a more pleasant and personalized wake-up experience, helping them start their day in a positive and relaxed manner.

[0044] In scenarios, where the user utilizes the body 101 while traveling in a flight or bus and wants to sleep, they must provide input via the user interface regarding the destination location to be reached. In response, the microcontroller activates the integrated GPS (Global Positioning System) module to detect the user's real-time location. The Global Positioning System (GPS) is a network of satellites orbiting the Earth that provide location information to GPS receivers on the ground. The GPS module integrated with the body 101 uses this principle to detect the user's real-time location. The GPS module integrated with the body 101 contains a GPS receiver that detects and decodes the GPS signals transmitted by the satellites. The receiver uses an antenna to receive the signals, which are then processed by the microcontroller.

[0045] The GPS module processes the location data and provides it to the microcontroller, which uses the information to determine when the user is approaching their destination.

[0046] In an embodiment of the present invention, the GPS module consists of a constellation of at least 24 operational satellites orbiting the Earth at an altitude of approximately 20,000 km. These satellites transmit radio signals containing their location and the current time. The signals are transmitted on a specific frequency and are received by GPS receivers on the ground.

[0047] Upon detecting that the user's real-time location is in proximity to the user-entered destination location, the microcontroller directs the vibrating units 103 to generate strong vibrations, thereby alerting the user to wake up.
• If the user is traveling and wants to sleep, the device only provides gentle vibration therapy, which ensures that people in the surroundings are not disturbed.
• If the user is at home and alone, the device activate speaker 111, sprayer 109 and vibrating units 103 without any restrictions like soothing sounds, calming fragrances, and vibration therapy.

[0048] A FBG (Fiber Bragg Grating) sensor is integrated into the body 101 to monitor vital health parameters of the user. The FBG sensor operates by inscribing a periodic refractive index modulation within the core of an optical fiber. When a broadband light source is transmitted through the fiber, the FBG reflects a narrowband wavelength that corresponds to the Bragg wavelength.

[0049] Any changes in the user's vital health parameters, such as temperature, pressure, or strain, cause a shift in the Bragg wavelength, which is detected by a photodetector. The microcontroller processes the detected signal and, in the event of abnormal vital health parameters, transmits an alert to a secondary computing unit, notifying a concerned person to provide necessary medical assistance to the user.

[0050] For instance, if the microcontroller detects snoring via a microphone 113 integrated into the body 101, then the microcontroller evaluates a need action of detected snoring. The microphone 113 plays a crucial role by converting spoken words or commands into electrical signals which are then processed and analyzed to trigger specific actions. When the user snores, their vocal cords vibrate, creating sound waves. These sound waves travel through the air as variations in air pressure. The microphone 113 mentioned herein is a transducer that converts these variations in air into electric signals.

[0051] The analog electrical signal is converted into digital form which is done by an analog-to-digital converter (ADC). The digital signal is then subjected to various signal processing techniques to enhance voice quality and eliminate noise. The microcontroller then converts the signal into specific commands and adjusts the operation of the compressor 106 and valve 105 to inflate or deflate specific pouches 104, thereby modifying the orientation of the user's head portion to prevent snoring.

[0052] The present invention works best in the following manner, where the user wears the body 101 as disclosed in the invention and selects their preferred sleep mode through a user-interface inbuilt in a computing unit. The user chooses between two sleep modes, normal sleep and deep sleep. Once the user makes their selection, an inbuilt microcontroller processes the input and generates a sequential command to control the device's various components. As the user falls asleep, the body 101 blocks light from entering the eyes, while the cushioning layer provides comfort to the eyes and nose. The pair of hollow patches 112 containing polyacrylate gel provides cold therapy to the user's eyes, helping to relax the muscles and promote sleep. Meanwhile, the pair of vibrating units 103 provides a mild massage to the user's head portion, further promoting relaxation. As the user settles into their sleep, the pressure sensors detect the user's head position and adjust the inflatable pouches 104 accordingly. The microcontroller inflates or deflates the pouches 104 to provide optimal comfort and support to the user's head. If the user selects the deep sleep mode, the electromagnetic springs 107 insert cotton plugs 108 into the user's ears, blocking out external noise and promoting deeper sleep. Throughout the night, the accelerometer monitors the user's movements, detecting any signs of restlessness. If the user becomes restless, the microcontroller triggers the speaker 111 to play pacifying sounds, accompanied by controlled vibrations from the vibrating units 103, which helps to calm the user and promote a restful sleep. If the user enters their destination location into the computing unit, the GPS module tracks the user's location and wakes them up when they arrive. The FBG sensor that monitors the user's vital health parameters, providing valuable insights into the user's sleep quality and overall health. Finally, the microphone 113 detects snoring and adjusts the inflatable pouches 104 to change the user's head position, helping to prevent snoring and promote a more restful sleep.

[0053] Although the field of the invention has been described herein with limited reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternate embodiments of the invention, will become apparent to persons skilled in the art upon reference to the description of the invention. , Claims:1) A wearable sleeping aid device, comprising:

i) a curved-shaped body 101 positioned over eyes of a user while sleeping, and equipped with a curved-shaped member 102 that is fastened around rear portion of said user’s head in view of securing said body 101 over said user’s eyes;
ii) a user-interface inbuilt in a first computing unit wirelessly linked with said device that enables said user to select mode of sleep from a first and second mode, wherein an inbuilt microcontroller processes said user-selection and generates a sequential command as per said user-selected mode;
iii) a pair of vibrating units 103 configured with said member 102, wherein upon receiving said sequential command from said microcontroller, said microcontroller activates said vibrating units 103 to provide a mild massage to said user’s head portion for allowing said user to sleep;
iv) plurality of inflatable pouches 104 arranged on said member 102 and each configured with an electronic valve 105, connected with an air compressor 106, wherein said microcontroller via a pressure sensor equipped with each of said pouches 104 determines said pouches 104 in contact with a surface over which said user is accommodated, and said microcontroller activates said valve 105 configured with said determined member 102 to open, followed by activation of said air compressor 106 for inflating said determined pouches 104 in view of providing comfort to said user’s head portion;
v) a pair of electromagnetic springs 107 installed with said member 102 and each equipped with a cotton plug 108, wherein in case said user-selected mode corresponds to said second mode, said microcontroller directs said springs 107 to energize and expand for inserting said cotton plugs 108 in said user’s ears to allow said user to attain a deep sleep;
vi) an electronic sprayer 109 attached with a chamber 110 stored with a fragrance liquid, and configured on said body 101, wherein in case of said second mode, said microcontroller directs said sprayer 109 to spray said liquid for spreading pleasant aroma around said user for allowing said user to attain deep sleep; and
vii) an accelerometer configured on said body 101 for detecting undesired motion of said user while wearing said body 101 indicating restlessness to said user, wherein said microcontroller activates a speaker 111 mounted on said body 101 to play pacifying sounds along with activation of said vibrating units 103 for providing controlled vibrations to said user’s head portion to provide soothing effect to said user and allow said user to sleep.

2) The device as claimed in claim 1, wherein said body 101 is constructed from a first and second layer, wherein said first layer stops light from entering said user’s eyes, while said second layer is developed from cushion to provide comfort to said user’s eyes and nose portion.

3) The device as claimed in claim 1, wherein said first mode corresponds to normal sleep and said second mode corresponds to deep sleep.

4) The device as claimed in claim 1, wherein a pair of hollow patches 112 are arranged at inner periphery of said body 101 that are filled with polyacrylate gel, wherein gel provides cold therapy to said user’s eyes.

5) The device as claimed in claim 1, wherein in case said user via said user-interface enters destination location to be reached by said user, said microcontroller activates a GPS (Global Positioning System) module installed with said body 101 for detecting real-time location of said user.

6) The device as claimed in claim 1 and 5, wherein as soon as said detected real-time location is near said user-entered destination location, said microcontroller directs said vibrating units 103 for generating strong vibrations in view of waking said user.

7) The device as claimed in claim 1, wherein a FBG (Fiber Bragg Grating) sensor is arranged on said body 101 for detecting vital health parameters of said user, and in case said detected parameters are abnormal, said microcontroller sends an alert on a second computing unit for notifying a concerned person to provide necessary medical aid to said user.

8) The device as claimed in claim 1, wherein in case said microcontroller via a microphone 113 arranged on said body 101 detects snoring by said user, said microcontroller regulates working of said compressor 106 and valve 105 for inflating/deflating required pouches 104 in view of changing orientation of said user’s head portion, thus preventing said user from snoring.