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Creating a Safe and Comfortable Sleep Environment for Infants

Introduction

Every parent’s priority is ensuring their baby sleeps safely and comfortably. However, achieving that ideal sleep environment can be challenging, especially when balancing comfort with the critical need for infant safety. Our patented infant sleep pod offers a smart solution designed to promote healthy sleep by providing an ergonomic, secure, and breathable space for babies. Combining safety features with thoughtful design, this sleep pod is engineered to reduce risks such as suffocation and discomfort while enhancing the overall sleep experience for both baby and parents.

Addressing Common Concerns in Infant Sleep

Infant sleep products, ranging from cribs to bassinets, often focus on either comfort or safety, but not both. Traditional crib mattresses or sleep surfaces can be too firm or too flat, leaving babies uncomfortable and leading to disrupted sleep patterns. On the other hand, overly soft or cushioned sleep environments can pose suffocation hazards, increasing the risk of Sudden Infant Death Syndrome (SIDS). Parents are left with a dilemma: how to provide a sleep solution that ensures the baby is both comfortable and safe.

Additionally, parents seek products that are easy to use, portable, and easy to clean, allowing them to maintain a safe sleep environment wherever they go. Current products on the market often miss the mark in providing a comprehensive solution that addresses all of these needs simultaneously.

Why the Infant Sleep Pod is the Ideal Solution

Our patented infant sleep pod is designed with the baby’s safety and comfort in mind, using advanced materials and ergonomic engineering to create an optimal sleep environment. The sleep pod features a contoured design that gently cradles the infant, providing support for their spine and head while maintaining a flat, safe sleeping surface. Its breathable materials ensure proper airflow, reducing the risk of overheating and suffocation.

This product is lightweight and portable, making it easy for parents to use at home or on the go. The removable, washable covers provide convenience, ensuring that the sleep environment remains clean and hygienic. With its combination of safety, comfort, and ease of use, the sleep pod addresses all the major concerns parents have about their infant’s sleep.

Key Benefits

  • Safety First: Designed to reduce the risk of SIDS by providing a firm, breathable, and safe sleep environment.
  • Ergonomic Design: Offers support for the baby’s body, promoting healthy spinal and head alignment.
  • Portable and Practical: Lightweight and easy to transport, with removable, washable covers for added convenience.
  • Enhanced Sleep: The secure, snug environment helps infants feel comfortable, improving their sleep quality.

A Must-Have Product for the Modern Parent

Licensing this infant sleep pod technology offers an opportunity for companies in the baby products and healthcare industries to introduce a top-tier solution that addresses both parental concerns and infant needs. By promoting safe, comfortable sleep, this product has the potential to become a staple in every household with a newborn.

Please see terms and conditions
An infant sleep pod providing passive and/or active safety features. The infant sleep pod provides a safe sleeping environment for infants sharing sleep areas with adults. The infant sleep pod provides a firm, flat, separate, portable, and dedicated sleep space for an infant. The infant sleep pod includes a base with a bed and sidewall, and a bridge extending across the bed. The bridge covers a head portion of the bed, while a foot portion of the bed is left open for inserting and removing the infant. The bridge prevents pillows and blankets from covering the bed and infant. The infant sleep pod also includes electronics for monitoring the sleep pod. The electronics include a sensor unit in the bridge and a control unit in communication with the sensor unit. The control unit and sensor unit are operable to detect unsafe conditions and, in response, generate alerts.

What is claimed is:

1. An infant sleep pod comprising:

a base including a sidewall and a bed providing an infant sleep area;
a bridge extending across the bed and having a bridge sensor sensing a characteristic of at least one of the infant sleep pod and an infant in the infant sleep area, wherein the bridge sensor is a bridge motion processing unit configured to detect bridge motion data along multiple axes of direction and an output of the bridge sensor includes bridge motion data; and
a control unit in communication with the bridge sensor, the control unit configured to

access a plurality of predetermined thresholds stored in memory,
generate a first alert indicating an unsafe condition of a first severity level in response to determining that the bridge motion data exceeds a first predetermined threshold of the plurality of predetermined thresholds, and
generate a second alert indicating an unsafe condition of a second severity level that is higher than the first severity level in response to determining that the bridge motion data exceeds a second predetermined threshold of the plurality of predetermined thresholds.
2. The infant sleep pod of claim 1, further comprising:

a base motion processing unit in the base and in communication with the control unit and configured to output base motion data to the control unit,
wherein the control unit is configured to generate a further alert based on the base motion data and the bridge motion data.
3. The infant sleep pod of claim 1, the bridge further comprising an infrared transmitter and an infrared detector, the control unit generating an alarm condition based on receipt, by the infrared detector, of reflections of infrared transmissions from the infrared transmitter.
4. The infant sleep pod of claim 1, the bridge further comprising at least one selected from a group consisting of a temperature sensor, an infrared sensor, a camera, and a motion sensor.
5. The infant sleep pod of claim 1, further comprising a sensor unit on the bridge, the sensor unit including the bridge sensor and at least one additional sensor that senses a second characteristic of at least one of the infant sleep pod and an infant in the infant sleep area.
6. The infant sleep pod of claim 1, further comprising a user interface on the bridge, the user interface including at least one selected from a group consisting of an alert output device and an arm/disarm selector.
7. The infant sleep pod of claim 1, further comprising communication wire coupled to the bridge sensor and to the control unit, the communication wire positioned within a leg of the bridge and providing a communication path between the bridge sensor and the control unit.
8. The infant sleep pod of claim 1, wherein the control unit is positioned in a recess of the base.
9. The infant sleep pod of claim 1, wherein the control unit further includes a wireless communication module in wireless communication with at least one external device.
10. The infant sleep pod of claim 9, wherein the wireless communication includes at least one selected from a group consisting of the alert output by the control unit, sensor data output from the control unit including data output by the bridge sensor, and a control signal from the at least one external device.
11. A method of monitoring an infant sleep pod having a base including a bed, a bridge extending across the bed and including a bridge sensor, and a control unit in communication with the bridge sensor, the method comprising:

receiving, by the control unit, a signal from the bridge sensor;
evaluating the signal by the control unit;
generating an alert, by the control unit, based on the evaluation,
wherein the bridge sensor is a bridge motion processing unit configured to detect bridge motion data along multiple axes of direction and the signal includes bridge motion data;
wherein evaluating the signal includes

comparing the bridge motion data to a predetermined threshold, and
determining an unsafe condition exists when the bridge motion data exceeds the predetermined threshold; and
wherein the alert indicates that the unsafe condition was determined.
12. The method of monitoring of claim 11, wherein the base includes a base motion processing unit, the method further comprising:

generating base motion data from the base motion processing unit;
calculating a difference between the bridge motion data and the base motion level; and
generating a further alert when the difference exceeds a difference threshold.
13. The method of monitoring of claim 11, wherein the base includes a base motion processing unit, the method further comprising:

generating base motion data from the base motion processing unit; and
generating a further alert when the base motion data exceeds a second predetermined threshold.
14. The method of monitoring of claim 11, wherein the alert is a deformation alert and the unsafe condition is that the bridge is deformed.
15. The method of monitoring of claim 11, wherein the the unsafe condition is at least one selected from a group consisting of a tipped sleep pod, a tipping sleep pod, a falling sleep pod, and a fallen sleep pod.
16. The method of monitoring of claim 11, the bridge further comprises an infrared sensor including an infrared emitter and receiver, the method further comprising:

emitting, by the infrared emitter, an infrared signal away from the bed;
receiving, by the infrared receiver, a reflection of the infrared signal;
providing an indication of the reflection to the control unit;
generating a further alert, by the control unit, in response to the indication, the further alert indicating that the infrared sensor is covered.
17. The method of monitoring an infant of claim 11, further comprising:

receiving, by the control unit, an arming signal;
generating an armed indicator to indicate that the sleep pod is armed.
18. The method of monitoring of claim 11, wherein the alert is wirelessly output to an external device.
19. An infant sleep pod comprising:

a base including a sidewall and a bed providing an infant sleep area;
a bridge extending across the bed and having a bridge sensor sensing a characteristic of the infant sleep pod, wherein the bridge sensor is a bridge motion processing unit and an output of the bridge sensor includes bridge motion data; and
a control unit in communication with the bridge sensor, the control unit configured to generate a deformation alert to indicate that the bridge is deformed inward toward the bed based on the bridge motion data.
20. An infant sleep pod comprising:

a base including a sidewall and a bed providing an infant sleep area;
a bridge extending across the bed and having a multi-axis bridge sensor sensing a characteristic of the infant sleep pod, wherein the bridge sensor is a bridge motion processing unit and an output of the bridge sensor includes bridge motion data including at least one selected from a group consisting of multi-axis tilt data and multi-axis acceleration data;
a control unit in communication with the bridge sensor, the control unit configured to generate an alert based on the bridge motion data from the bridge sensor, wherein the alert indicates at least one selected from a group consisting of a tipped sleep pod, a tipping sleep pod, a falling sleep pod, and a fallen sleep pod.
21. A method of monitoring an infant sleep pod having a base including a bed, a bridge extending across the bed and including a bridge sensor, and a control unit in communication with the bridge sensor, the method comprising:

receiving, by the control unit, a signal from the bridge sensor;
evaluating the signal by the control unit;
generating an alert, by the control unit, based on the evaluation,
wherein the bridge sensor is a bridge motion processing unit and the signal includes bridge motion data, the method further comprising generating a deformation alert to indicate that the bridge is deformed inward toward the bed based on the bridge motion data.
22. A method of monitoring an infant sleep pod having a base including a bed, a bridge extending across the bed and including a multi-axis bridge sensor, and a control unit in communication with the bridge sensor, the method comprising:

receiving, by the control unit, a signal from the multi-axis bridge sensor, wherein the bridge sensor is a bridge motion processing unit and the signal includes bridge motion data including at least one selected from a group consisting of multi-axis tilt data and multi-axis acceleration data;
evaluating the signal by the control unit by comparing data of the bridge motion data from the multi-axis bridge sensor to a stored predetermined threshold;
generating an alert, by the control unit, based on the evaluation,
wherein the alert indicates at least one selected from a group consisting of a tipped sleep pod, a tipping sleep pod, a falling sleep pod, and a fallen sleep pod.
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Title

Infant sleep pod

Inventor(s)

Jennifer J. Doering, Greg Krzecki

Assignee(s)

UWM Research Foundation Inc

Patent #

9867480

Patent Date

January 16, 2018

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