Portable wearable primary device which communciates data to secondary device that is in communication with multiple networks and related communication systems

Abstract

An personal portable communication device and system is provided which includes a handheld beacon that has a controller, a short range signal transmitter, and a power source, and at least one switch, an indicator light and a short range signal receiver that transmits and receives signals to a secondary relay communication device such as a smartphone wherein the secondary device sends second communication signals including messages according to predetermined instructions to predetermined destinations.

Claims

1. An communication system comprising a primary device said primary device comprising a controller, a short range signal transmitter, and a power source, and at least one switch, and an indicator light and a short range signal receiver wherein said receiver is adapted to receive a short range signal reflecting that a transmission signal by said primary device was successfully received by a relay communication device and a second signal was transmitted from said relay device according to a predetermined protocol and in response, to activate said indicator light, and in response to the activation of said switch, said controller configures an outbound signal that includes instructions to a processor in said relay receiver to relay a predetermined message to at least one predetermined destination device selected from a plurality of predetermined destination devices that are stored in said relay device and said second signal further comprises either an email, text and voice telephonic calls, and said relay sends a first predetermined message content to a first selected destination in response to the detection of a signal from said primary device and transmits subsequent messages either in response to reply signals from the first destination or, in the absence of reply signals after a predetermined time, sends subsequent messages according to predetermined programming of said relay device.

2. The system recited in claim 1 wherein said short range frequency signal comprises a signal transmitted in accordance with the Bluetooth standard.

3. The system recited in claim 1 wherein said relay device comprises a software application for a smart phone wherein said application provides instructions to a processor associated with said smart phone to recognize said short range signal, and then process said signal and transmit a second transmission signal to predetermined destinations according to predetermined instructions.

4. The system recited in claim 3 wherein said instructions are for the transmission of data in the form of a audible or voice message to phone numbers which comprise predetermined destinations.

5. The system recited in claim 3 wherein said instructions further comprise instructions to transmit signals comprising data for transmission to predetermined destinations.

6. The system recited in claim 1 further comprises a plurality of indicator lights, wherein said lights are activated to indicate that device has sufficient power, and are activated when a signal is transmitted.

7. The system recited in claim 1 wherein said controller provides a signal to said indicator light devices when said device is activated, and sends a signal to one said indicator light when a message has been successfully transmitted to and acknowledged to be receive by a destination.

8. The system as recited in claim 1 further comprising a loudspeaker and microphone, and wherein said device is configured to transmit a voice signal and receive and broadcast an audio signal.

9. The system recited in claim 1 further comprising a plurality of manual switches, wherein said manual switches control the selection of the content of a message for transmission by said device.

10. The system recited in claim 1 further comprising a global positioning receiver and processor, said global positioning receiver and said processor located in said relay device, and said signal transmitted from said device includes information relating to data determined by said global positing receive and processor.

11. The system recited in claim 1 further comprising an accelerometer said accelerometer is in communication with said processor and said signal is transmitted from said device in response to a signal from said accelerometer.

12. A communications system for providing an alert message comprising a primary device as recited in claim 1 and further comprising a relay device said relay device comprising a portable smart phone, wherein said smart phone is adapted to receive said short range frequency signals and, in response to a predetermined signal from said primary device, activate an outbound preselected signal directed to predetermined destination devices.

13. The system recited in claim 12 wherein said outbound signal from said relay device comprises a text message directed to preselected address.

14. The system recited in claim 12 wherein said outbound signal from said relay device comprise email transmissions.

15. The system recited in claim 12 wherein said predetermined destination comprise cell phone calls to pre-selected phone numbers.

16. The system of claim 15 wherein said relay initiates a short range signal back to said primary device when a communication has been successfully received and acknowledged by said destination.

17. The system of claim 12 wherein said relay contacts a sequence of numbers in a predetermined serial sequence until a communication to a destination device is successful and said destination device transmits a recognized acknowledgment of said communication, and wherein said recognition is determined by predetermined programmed instruction stored in a memory associated with said relay.

18. The system of claim 12 wherein the relay device relays a voice transmission to and from the said primary device and said preselected destination.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic diagram of an overview of an exemplary embodiment of the system architecture of a wireless communication device according to the invention.

(2) FIG. 2 is a schematic diagram of an overview of another exemplary embodiment of the system architecture of a wireless communication device including the device and cellular smartphone communications module.

(3) FIG. 3 is a screen display of the software application than may be operated on the cellular smartphone.

(4) FIG. 4 is a screen display of the software application than may be operated on the cellular smartphone.

(5) FIG. 5 is a screen display of the software application than may be operated on the cellular smartphone.

(6) FIG. 6 is a screen display of the software application than may be operated on the cellular smartphone.

(7) FIG. 7 is a screen display of the software application than may be operated on the cellular smartphone.

(8) FIG. 8 is a screen display of the software application than may be operated on the cellular smartphone.

(9) FIG. 9 is a screen display of a software application reflecting emergency contacts data that may be entered by the user of the device according to an embodiment of the invention.

(10) FIG. 10 is a screen display of the of a software application reflecting a screen that allows for contact data import according to an embodiment of the invention.

(11) FIG. 11 is a screen display of the of a software application reflecting a screen that allows for contact data import according to an embodiment of the invention.

(12) FIG. 12 is a screen display of the of a software application reflecting an options/Settings display screen according to an embodiment of the invention.

DETAILED DESCRIPTION

(13) Now referring to FIG. 1 an overview of an exemplary embodiment of the system architecture of a wireless communication device is depicted. Wireless communication primary device 100 (which is all of FIG. 1) includes switch 110, 112 and 114. In an exemplary embodiment, contact button 110 may be used to initiate contact with a first address such as a primary emergency contact. Switch 112 may be used to contact a second address such as secondary emergency contact. The third switch 114 may be programmed to call an emergency number such as 911 that is used in most regions in the United States. As used herein, the “primary device”, the “wireless communication primary device”, the “handheld beacon” and the “portable beacon” all refer to the same structure as schematically illustrated in FIG. 1 and in FIG. 2 at reference No. 250.

(14) The contact buttons may have easily identifiable icons or symbols to facilitate easy dialing. In embodiments, these icons or symbols can be altered to correspond to the programming of the application that resides on the local cellular communication secondary device. In embodiments, primary device 100 may also have communications buttons 116, 118. The communication buttons may include talk switch 116 and off switch 118.

(15) Communications primary device 100 is controlled by processor 130 which coordinates the electronic processes of wireless communications primary device 100. Device 100 may also include a power button 120, for activating the primary device 100. In embodiments a volume switchers or dial 122 is provided for increasing or decreasing the speaker volume of the device.

(16) Device 100 also includes power supply 132 which is connected with rechargeable or other batteries. In this embodiment a charger 134 is coupled with a power charging device such as a DC phone charger as known by those skilled in the art.

(17) Wireless communications primary device 100 also has a memory 136 which, when used in conjunction with microprocessor 130, is used to store on board software and/or firmware programs that implement the functionality of the wireless communications primary device 100. Memory 136 may also include storage for phone numbers as discussed above.

(18) Wireless communications primary device 100 may also have power light 138 to indicate the status of the device and can provide information relating to the battery life. Wireless communications primary device 100 may also have a radio frequency antenna 170 which as needed, may both receive and send radio frequency signals for wireless communication as is known by those skilled in the art. Signals received by a radio frequency antenna 170 are processed by cellular receiver 156, amplified by audio amplifier 158 and, in turn, transmitted through speaker 160 such as an audible signal that may be heard by a user.

(19) The primary device 100 includes a microphone 150, which when coupled with the blue tooth radio transmitter 140 may wirelessly transmit a signal via radio frequency antenna 170 to the local communication secondary device. A indictor light and accelerometer may also be optionally included with device. In embodiment the device may initiate a signal based upon input to the controller from an accelerometer.

(20) The wireless communication primary device 100 is described herein as being a “blue tooth” device, other short range wireless communication system may be advantageously used with the device.

(21) Thus the portable primary device 100 includes the components recited above mounted on a PC board and is designed to allow for the transfer of information to and from the secondary device and application designed for receiving the re-transmitting the information. In embodiments Bluetooth 3.0 or 4.0 technology is used to transfer data to and from the primary device 100 to a local secondary device which comprises a smartphone.

(22) Bluetooth 4.0 refers to a standard is a wireless technology standard for exchanging data over short distances using short-wavelength UHF radio waves in the ISM band from 2.4 to 2.485 GHz. Bluetooth was first standardized as IEEE 802.15.1 but the standard is no longer maintained. The Bluetooth Special Interest Group presently oversees the development of the specification, manages the qualification program, protects the trademarks.

(23) The communication protocol allows the application running on the secondary device to signal the primary device itself as well as provide audio communication via the speaker. The exterior of the device is constructed from a waterproof material to be able to connect during a storm or even after submergence in water.

(24) In embodiments, the primary device can also be triggered by proximity sensor or a rapid change in heart rate that would alert the Network. The primary device also includes the means to transfer signal to a network, send and receive real time audio transmissions, include a method of powering an LED to bring visual awareness as well as buttons that are used to trigger the Network via the application.

(25) Data that is transmitted from the primary device my include voice, preselected alert notifications, status information of the device, geographic position, and other data collected from input sensors. In addition to a microphone, the input sensors may include accelerometers, and photo-detectors. Data transmission may be triggered by the activation of a switch by the user or be activated by other preselected input such as a signal from an accelerometer.

(26) Accordingly, embodiments of the portable primary device include a speaker, microphone, rechargeable battery, battery cable connection port, waterproof shell, LED light and input switches. It may be worn, strapped, clipped or mounted on user or object. After a switch or sequence of switches is activated, a signal to the local is transmitted to a network. The network includes but is not limited to, mobile phones, house phones, laptop, home or office computer, smartphone, satellite phone, wifi. Functions for the device are provided by the application, wherein a series of actions may be invoked upon reception of a signal from the primary portable device.

(27) Now referring to FIG. 2, the system includes the primary device 250, and a secondary device 260 that is connect to a communications network 291. In preferred embodiments, the secondary communications device is a smartphone running an application that allows the primary device to activate the communication functions of the phone. The application in the cellphone allows user input, including data relating to phone numbers, to be dialed in response to communication from the primary device. In addition, a communication protocol that includes text messaging, and the replay of GPS data generated from either the primary or secondary device may be transmitted in response to predetermined signals from the primary device. If a voice connection has been made, the system will allow for voice communication from primary device, through the secondary device to a third party at a remote destination.

(28) FIG. 3 is a screen display 301 of the welcome screen for the application that is run on the secondary communication device or smartphone. In the embodiment depicted in FIGS. 3-12, the smartphone has a touch screen and that allows the functions discussed herein to be implemented. In order to access the system, a user must enter a phone number at field 305, an email address at field 307 and password at field 309. This shows the logon and user information screen, using the user's phone number it gives a unique 2 way verifying process connecting to our server for tracking and database services allowing others to connect as well.

(29) FIG. 4 is a screen display 401 main menu that includes menu selections my location 407, that allows the user to activate GPS functions, A large beacon switch or button 420 is located at the bottom for emergencies. The color of the activation button changes from gray to blue when the device is connected to the primary device via Bluetooth communication, therefore reflecting that existence of the signal. When a user physically presses the emergency button on the device, the location will again respond by changing the color of the button to red and the application will initiate the emergency communication protocol. The screen includes a ‘My Location’ feature 407 that shows the users current location used for tracking or identified whereabouts. In addition, it includes a‘Distress Signal’ 408 alerts users of the detection of a signal from the primary device to reflect the existence of an emergency situation. Clicking this location on the screen will access the user's information and map of the user's current location. FIG. 4 also illustrates other accessible features of the system including “Options” 410 that allows the user to access a screen to allow the control and adjustment of various functions on the device, as well as enabling and disabling various functions. See FIG. 12. The “Upgrade” feature 420 allows users to add extra functionality to the application. The “User Guide” function 425 provides information regarding the features and functions of the system. The “Log out” function 430 logs the user out of the application. The “Page Information” function 470 at bottom left provides information relating to the functionality of each button, switch or link on the screen. At the bottom right of the display, a “Battery” icon 490 is provided that shows the amount of power that is remaining on the device. A shortcut to the easy set-up function is provided at link 414.

(30) Now referring to FIG. 5, an “Easy Setup” display screen 501 is depicted. This device interface allows users to store their information and set up the device, including adding their respective contacts and provide input for the various other options available. The “My Information” field 512 provides a link to a screen to accept data entry and allows the user to set up his personal information including setting up various features like his or her email address and phone carrier. In an embodiment the system includes a “Call Center Information” field 514 allows a user to access or make direct contact to a support call center operated by the service provider that can assist with the setting up a user account. The user may also use the call center for other technical support and ask questions pertaining to the service or implementing features of the system. The “text message setup” field 520 allows users to create a custom message and title for their emergency text messages. See FIG. 8. The “email message setup” field 520 provides a link to a further screen to allow users to create a custom message and title for their emergency email messages. The “Emergency Contact Setup” field 515 provides a link to another screen that allows users to add emergency contact information either from phones contacts or manually. (screen 5a)

(31) FIG. 6 is a screen display of a distress map 601. The distress map is displayed when the user gets a push notification, or text, or the silent beacon device alerts you, or the application is open when a contact is in an emergency. In real time it will show the current GPS location of the person in emergency so that they can be tracked and will transmit the information from the local communication device to a remote location via phone, text or email. The software will drop a marker or pin such as 615 and 628 to identify where the person is and correlate the time with the location. The time of the drop is reflected at referenced number 615 and 628. As the individual moves, a red line is drawn that tracks the pathway 612 and times are correlated at predetermined intervals.

(32) FIG. 7 is the “My Information” screen display 701. This screen allows for various information of the user to be stored and modified. One feature of this display allows the user to import the information from a contact listing. A user enter his or her first and last name along with the users email address, mobile number, the users mobile phone carrier and other information can be entered at the users option. This screen also provides for the functionality for setup of an email account to be used in distributing the emergency alert. The screen includes an activation link to 707 allow importing data from contacts. The user may also manually enter data in fields provided including first name 710, last name 711, email 712, mobile phone 713, carrier information 714. The device also allows the user to set up an email account at link 720.

(33) Now referring to FIG. 8, an Email Message set up display screen 801 is displayed. This page allows the user to setup a custom email message by activation of link 806 that will be transmitted to selected emergency contacts and used to advise the contacts that they are in an emergency situation. The text if the email is displayed at field 808. The user can test the settings by activation on the smaller beacon icon that is reflected in the present embodiment by a green lighthouse icon in field 810.

(34) FIG. 9 is the “Emergency Contacts” display screen 901. Screen 901 is provides a list of emergency contacts 905-907 as well as fields to allow data entry to add additional contact 908 and 909. Upon activation of the link, a new screen is opened and the relevant data may be entered into the application. Where a user may provide data relating to emergency contacts are added including data fields 904-909. The user may add manually contact information via a contacts list stored within the mobile smartphone device as well as edit them. There is a small beacon, such as beacon 920 associated with each contact that identifying by color the status of the users. In this embodiment, gray indicate the contact is not connected; the color blue indicates that that contact is connected, and red indicates the contact is in an emergency status. You can click or access each of the users name to show their GPS positioning in real time.

(35) FIG. 10 is a Text Message display screen. This display allows the user to enter information to setup a custom text message letting their emergency contacts know they are in an emergency situation. The user may test the settings on the smaller beacon icon in green.

(36) FIG. 11 is the Contact Setup display screen. The Contact Setup display screen allows users to add the fields of their emergency contacts. This setup can be manually inputted with data or the data may imported from the smartphone contact list. The data fields that may be populated include (1) the user's first and last name (2) users email address (3) the user's mobile number (4) additional phone numbers and (5) the user's mobile phone carrier.

(37) FIG. 12 is the “Options/Settings” display screen. This screen allows users to select communications options including Activating the Call Center call option”, 911, GPS Tracking enabling, Email Messaging, Text messaging, and device sounds.

(38) The application on the secondary communication device may access a local memory or can access memory stored on the network. This information may include but is not limited to names, email addresses, phone numbers, social media, and other contact information that identifies a person.

(39) The application utilizes functions within the network and can communicate with multiple recipients. Forms of communication include but are not limited to, email, SMS messaging, push notifications, app alerts, video chat, voice calls, audio recordings and instant messaging.

(40) In an embodiment, the user may choose which forms of communication are to be used. The option of turning them on or off is within the application installed on the smartphone. Options include but are not limited to, texting from the secondary device of a user's location using a GPS function, texting to turn on tracking, email to show GPS location, email to alert that a user is in distress or needs assistance, contacting multiple people at once, contacting an emergency response center to communicate your current emergency. The application also connects to servers which relay in real-time the location of the network triggered by the portable device.

(41) Anyone who is connected to the user and possesses the application and portable device will be alerted if someone else has alerted the network. The application itself displays who has altered the network and they will be able to be viewed in real time with GPS. In an embodiment, a call center can automatically tracks a subscriber as well and can relay in real time to authorities or an emergency response center the whereabouts and condition of the user.

(42) In an embodiment, the application is programmed to sequentially contact persons by phone on the list until a successful call is placed. In another embodiment, the system will phone and text contacts on a predetermined list until a text or phone call is successfully completed or a text is acknowledged and a return text is transmitted. In alternative embodiments, messages and phone calls are simultaneously transmitted upon the activation of the switch. In yet further alternative embodiment of the invention, the user can select the option at the beacon to sequentially attempt to make contact or simultaneously make contact. In the embodiment that involves transmission of text, a signal is transmitted back to the beacon that reflects a responsive text has been received. In alternative embodiment, the text message requests that the recipient call the sender. The application will received the call and retransmit the voice signal to the beacon or first device.

(43) The present invention and its various advantages will be understood from the foregoing description and that it will be readily apparent to those ordinarily skilled in the art so that various changes may be made in form, construction and arrangement without departing from the spirit and scope of the invention. While specific embodiments of the invention have been disclosed and discussed herein, the invention is not intended to be limited by the specific embodiments described in the specification but rather, the scope of the invention should be measured by the appended claims and their legal equivalents.