Patent Publication Number: US-10771877-B2

Title: Dual earpieces for same ear

Description:
PRIORITY STATEMENT 
     This application claims priority to U.S. Provisional Patent Application 62/414,973, filed on Oct. 31, 2016, and entitled Dual earpieces for same ear, hereby incorporated by reference in its entirety. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates to wearable devices. More particularly, but not exclusively, the present invention relates to wireless earpieces. 
     BACKGROUND 
     Wireless earpieces are a new class of consumer electronic device with a great deal of commercial potential. However, as earpieces tend to be used quite extensively when worn, battery life remains a concern. One way to combat this is to have a pair of left and right earpieces, with one earpiece charging while the other earpiece is either being worn or used. Moreover, one earpiece may be configured as the master unit (e.g., a left earpiece) and another as the slave unit (e.g., a right earpiece). As such, it is beneficial in this and other instances to have a similarly configured earpiece for the same ear. 
     SUMMARY 
     Therefore, it is a primary object, feature, or advantage of the present invention to improve over the state of the art. 
     It is an object, feature, or advantage of the present invention to provide at least a pair of similarly conformed earpieces for the same ear and a smart case configured to dock the pair of similarly conformed earpieces. 
     It is another object, feature, or advantage of the present invention to provide at least a pair of earpieces conformed for the same ear where each earpiece is also configured as a master control unit. 
     It is a further object, feature, or advantage of the present invention to provide an additional wireless earpiece in order to ensure a user always has a wireless earpiece with sufficient battery life. 
     It is a still further object, feature, or advantage of the present invention to synchronize the data between a worn wireless earpiece and a smart case in order to facilitate data transfer. 
     According to one aspect, a system having a set of wireless earpieces is disclosed. The system includes a set of wireless earpieces anatomically conformed for wearing in the same ear. Each wireless earpiece can include an earpiece housing, a speaker disposed within the earpiece housing, a memory device disposed within the earpiece housing, a transceiver disposed within each earpiece housing, and a processor disposed within each earpiece housing and operatively connected to the speaker and the transceiver. In at least one other aspect, the system includes a case having a case housing with a set of receptacles. The set of receptacles substantially define contours having the anatomical conformity of the set of wireless earpieces. The case can include an electromechanical connector disposed within each receptacle. Each wireless earpiece of the set of wireless earpieces is coupled to each electromechanical connector. An energy source can be disposed within the case housing. 
     According to another aspect, a pair of wireless earpieces is disclosed. The wireless earpieces can include an earpiece housing having an anatomically conformity for the same ear and a speaker disposed within the earpiece housing. A memory device, transceiver, and processor can be disposed within the earpiece housing. In at least one aspect, each earpiece of the set of wireless earpieces includes a master control device configured to receive a user-input and process the user-input with the processor to control the other earpiece. 
     According to a further aspect, a method for communicating between wireless earpieces is disclosed. The method includes providing a pair of wireless earpieces with an earpiece housing having an anatomically conformity for the same ear, a speaker, memory, transceiver, and processor disposed within the earpiece housing. A signal can be transmitted between the pair of wireless earpieces for performing a first operation on a first earpiece of the pair to control a second operation on a second earpiece of the pair. In at least a further aspect, the method can include transmitting a signal between the second earpiece worn by a user and the first earpiece docked within a case and transmitting a signal between the first earpiece worn by a first user and the second earpiece worn by a second user. 
     One or more of these and/or other objects, features, or advantages of the present invention will become apparent from the specification and claims that follow. No single embodiment need provide each and every object, feature, or advantage. Different embodiments may have different objects, features, or advantages. Therefore, the present invention is not to be limited to or by an object, feature, or advantage stated herein. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  illustrates a block diagram of a system; 
         FIG. 2  illustrates one embodiment of a system; 
         FIG. 3  illustrates how a connection is established between a detached wireless earpiece and a smart case; 
         FIG. 4  illustrates a pair of left wireless earpieces; and 
         FIG. 5  illustrates a detached wireless earpiece and its relationship to a network; and 
         FIG. 6  is a flowchart of a process for connecting wireless earpieces in accordance with an illustrative embodiment. 
     
    
    
     Some of the figures include graphical and ornamental elements. It is to be understood that the present invention contemplates all permutations and combinations of the various graphical elements set forth in the figures thereof. 
     DETAILED DESCRIPTION 
     The illustrative embodiments provide a system, method, smart case, and wireless earpieces for interchanging wireless earpieces for communication. Traditionally, a left and right ear conformed wireless earpiece may represent a pair of wireless earpieces. However, a pair of wireless earpieces may be (anatomically) conformed to wear in the same ear. The features and functionality of the pair of wireless earpieces may be similar or identical. For example, both earpieces may be configured as a master control unit. Alternatively, both earpieces may be configured as a slave unit. Yet, in another configuration, similarly (anatomically) conformed earpieces may be configured so one earpiece acts as a master control unit and the other earpiece a slave unit. The features and advantages derived from the adaptability of the configuration of a pair of similarly or identically conforming wireless earpieces are many as set forth by way of example herein. 
     To streamline communications, conserve battery, simplify manufacturing processes, expand configurability options, and provide a generally more robust system, electronic devices traditionally operating in tandem as pairs are configured so one of the devices operates as a control unit (i.e., master unit) and the other device a passive/semi-passive unit (i.e., slave unit). In the context of the present invention, wireless earpieces anatomically conformed for the same ear may be configured whereby the pair of earpieces each are configured and perform the same functions as a control unit. The different type of earpiece configurations, controls and functions are set forth below. There are several advantages for having at least a pair of earpieces (anatomically) conformed for the same ear and electronically configured in a similar manner. It is particularly beneficial to have a pair of earpieces conformed for the same ear where both earpieces are configured as control units. 
     The smart case may store one or more sets of wireless earpieces for personal, business, commercial, or organizational usage. In one embodiment, a smart case may store, charge, and synchronize data for a number of wireless earpieces. As needed by a user wearing or otherwise utilizing the wireless earpieces, a wireless earpiece may be swapped out for another wireless earpiece (e.g., a first left wireless earpiece with a dead battery may be placed in the smart case and a second left wireless earpiece may be removed from the smart case for utilization). The wireless earpiece removed from the smart case may be securely connected or linked to another wireless earpiece already being utilized (e.g., the second left wireless earpiece may be securely linked to a right wireless earpiece being worn by the user). 
     In one embodiment, a system includes a set of wireless earpieces. Each of the wireless earpieces include a left earpiece and a right earpiece. Each wireless earpiece further includes an earpiece housing, a speaker operatively connected to each earpiece housing, a memory device disposed within the earpiece housing, a transceiver disposed within each earpiece housing, a processor disposed within each earpiece housing and operatively connected to the speaker and the transceiver, and a smart case including a case housing including a set of receptacles. The set of receptacles substantially define contours of the set of wireless earpieces, an electromechanical connector disposed within each receptacle for coupling with the set of wireless earpieces, a memory device disposed within the case housing, a transceiver disposed within the case housing, an energy source disposed within the case housing, and a processor disposed within the case housing and operatively connected to the memory device, the transceiver, and the energy source. A connection is initiated between the smart case and a detached wireless earpiece from the set of wireless earpieces in response to a detachment of the wireless earpiece of the set of wireless earpieces from an electromechanical connector of the smart case. 
     In another embodiment, a system and method includes a set of wireless earpieces including all left or all right wireless earpieces and a smart case configured to hold each wireless earpiece of the set of wireless earpieces. A connection is initiated between the smart case and a wireless earpiece detached from the smart case in response to the detachment of the wireless earpiece. 
     One or more of the following features may be included. The detached wireless earpiece from the smart case may establish the connection to the smart case. The connection may be established in response to a voice command. The connection may be terminated in response to attachment of the detached wireless earpiece to an electromechanical connector. The connection may encode data. The energy source of the smart case may deliver energy to the set of wireless earpieces via the electromechanical connectors. Each wireless earpiece may further comprise an LED operatively connected to each earpiece housing, wherein each LED displays information derived from the data. The speaker of the detached wireless earpiece may communicate information derived from the data. The detached wireless earpiece may establish a second connection to a wireless earpiece from the set of wireless earpieces in response to an additional voice command. The detached wireless earpiece may establish a third connection to a network. The network may be in operative communication with a mobile phone or a third party database. 
     In one embodiment, the wireless earpieces are securely linked in response to a signal or command from the smart case. In another embodiment, wireless earpieces may utilize a signal, connection, or link to search for each other. Authorized and validated wireless earpieces may be securely connected for performing communications and other functionality. For example, a handshake, device identifier, user preferences, database information, user authorization (e.g., voice approval, tactile input, etc.) may be utilized to initiate or authorize the connection between a newly connected set of wireless earpieces (e.g., left and right wireless earpieces authorized for secure communications). 
     The wireless earpieces may include any number of sensors for reading user biometrics, such as pulse rate, blood pressure, blood oxygenation, temperature, orientation, calories expended, blood or sweat chemical content, voice and audio output, impact levels, and orientation (e.g., body, head, etc.). The sensors may also determine the user&#39;s location, position, heart rate, voice stress levels, and so forth. The sensors may also receive user input and convert the user input into commands or selections made across the personal devices of the personal area network. For example, the user input detected by the wireless earpieces may include voice commands, head motions, finger taps, finger swipes, motions or gestures, or other user inputs sensed by the wireless earpieces. The user input may be received, parsed, and converted into commands, queries, and requests associated with the input that may be utilized internally by the wireless earpieces or sent to one or more external devices, such as a tablet computer, smart phone, laptop, or so forth. The wireless earpieces may perform sensor measurements for the user to read any number of user biometrics. The user biometrics may be analyzed including measuring deviations or changes of the sensor measurements over time, identifying trends of the sensor measurements, and comparing the sensor measurements to control data for the user. 
     The wireless earpieces may also measure environmental conditions, such as temperature, location, barometric pressure, humidity, radiation, wind speed, chemical content of the air, noise levels, and other applicable environmental data. The wireless earpieces may also communicate with external devices to receive additional sensor measurements. The wireless earpieces may communicate with external devices to receive available information, which may include information received through one or more networks, such as the Internet. 
     The illustrative embodiments allow a user to quickly and efficiently swap out wireless earpieces to charge batteries, perform software updates, synchronize data, select a different size, perform cleaning, or any number of other reasons. The user may be assured that communications between the wireless earpieces are secure and authorized based on the processes of the described embodiments. 
       FIG. 1  illustrates a block diagram of a system  10  including a set of wireless earpieces  12  and a smart case  26 . The set of wireless earpieces  12  may include either a set of left earpieces or a set of right earpieces. Each wireless earpiece may further include an earpiece housing  14 A,  14 B, a speaker  16 A,  16 B operatively connected to each earpiece housing  14 A,  14 B, a memory  18 A,  18 B operatively connected to each earpiece housing  14 A,  14 B, a transceiver  20 A,  20 B disposed within each earpiece housing  14 A,  14 B, and a processor  22 A,  22 B operatively connected to each component within their respective wireless earpieces and earpiece housings  14 A,  14 B. Microphones  15 A,  15 B and light emitting diodes (LEDs)  24 A,  24 B may also be operatively connected to each earpiece housing  14 A,  14 B. 
     Earpiece housings  14 A,  14 B are a framework shaped to fit substantially within the ear of the user. The earpiece housings  14 A,  14 B may include a frame or other support structure that at least partially encloses and houses the electronic components of the wireless earpieces  12 . The earpiece housings  14 A,  14 B may be composed of plastic, metal, polymers, non-metals, or any material or combination of materials having substantial deformation resistance in order to facilitate energy transfer if a sudden force is applied to the wireless earpieces  12 . For example, if one of the wireless earpieces  12  is dropped by a user when inserting or removing the wireless earpiece from the smart case  26 , the earpiece housings  14 A,  14 B may transfer the energy received from the surface impact throughout the entire wireless earpiece. 
     In addition, the earpiece housings  14 A,  14 B may be capable of a degree of flexibility in order to facilitate energy absorbance if one or more forces is applied to the earpiece. For example, if an object is dropped on one of the wireless earpieces  12 , the earpiece housings  14 A,  14 B may bend in order to absorb the energy from the impact. The flexibility of the earpiece housings  14 A,  14 B should not, however, be flexible to the point where one or more components of the earpiece may become dislodged or otherwise rendered non-functional if one or more forces is applied to the earpiece. The earpiece housings  14 A,  14 B may also waterproof all or portions of the wireless earpieces  12  with the other exposed components also being waterproof or water resistant. The wireless earpieces  12  may also include one or more sleeves that fit over a portion of the earpiece housings  14 A,  14 B and within ears of the user. The sleeves may come in any number of sizes and shapes to fit the size and shape of the ears of the user ensuring good audio transmission, sensor readings, tactile feedback, and so forth. 
     Microphones  15 A,  15 B may be operatively connected or mounted within the earpiece housings  14 A,  14 B and may be configured to receive voice commands and other audio input from the user. The microphones  15 A,  15 B may include air microphones located on an exterior portion of the wireless earpieces  12  when worn by the user and an ear-bone or bone conduction microphone that may be positioned within the user&#39;s ear when worn by the user to utilize vibrations as well as sound to receive audio input (e.g., sound communicated through the skull and bones of the user when speaking). The microphones  15 A,  15 B may include a single microphone or a number of different microphones. The voice and audio input received from the user may be processed by the processor  221  for any number of software systems, such as an operating system, program applications, or so forth. For example, if the user wants to establish a connection to the smart case  26  or wants to adjust one or more parameters of an algorithm executed by processors  22 A,  22 B, the user may issue a voice command to bring up a menu communicated by speakers  16 A,  16 B, which may include one or more selections that the user may choose from using additional voice commands until a connection is established or one or more parameters of one or more programs is modified. Programs unrelated to connecting to the smart case  26  may also be initiated, terminated, downloaded, uploaded, or modified via one or more voice commands by the user. 
     Speakers  16 A,  16 B may be operatively connected to or mounted within the earpiece housings  14 A,  14 B and may be configured to communicate one or more sounds to a user of the wireless earpieces  12 . Although not shown, the one or more speakers  16 A,  16 B of the wireless earpieces  12  may include a number of speaker components (e.g., signal generators, amplifiers, drivers, and other circuitry) configured to generate sounds waves at distinct frequency ranges (e.g., bass, woofer, tweeter, midrange, etc.) or to vibrate at specified frequencies to be perceived by the user as sound waves. The speakers may also generate sound waves to provide three-dimensional stereo sound to the user. 
     The sounds communicated by the speakers  16 A,  16 B may originate from memories  18 A,  18 B disposed within the earpiece itself, one or more signals received from wireless devices, such as the smart case  26 , a mobile phone, a tablet, a communications tower, or other electronic devices. 
     Sounds or audio communicated from any of the aforementioned sources may be communicated utilizing any number of standards, protocols, or processes (e.g., real-time streams, encoded packets, files, encrypted data, etc.) For example, a user may be listening to a song stored in a memory of the wireless earpiece (or a radio station playing songs encoded in signals transmitted by a radio tower) when the speakers  16 A,  16 B may communicate a weather report originating from a signal transmitted by a mobile phone associated with the wireless earpieces. In another example, the wireless earpieces  12  may be playing a radio station received from a linked tablet, when the speakers  16 A,  16 B may communicate a signal transmitted by the smart case  26  indicating that the smart case  26  is running low on power or that a wireless earpiece stored in the smart case  26  is fully recharged. The speakers  16 A,  16 B may also communicate warnings concerning the battery life and status of the wireless earpieces  12 , if, and when, necessary. 
     Memories  18 A,  18 B may be operatively connected to or mounted within the earpiece housings  14 A,  14 B. The memories  18 A,  18 B are hardware elements, devices, or recording media configured to store data for subsequent retrieval or access at a later time. The memories  18 A,  18 B may be or include static and/or dynamic memory. The memories  18 A,  18 B may include one or more of a hard disk, random access memory, cache, removable media drive, mass storage, or configuration suitable as storage for data, instructions, and information. In one embodiment, the memories  18 A,  18 B and the processors  22 A,  22 B may be integrated. The memories  18 A,  18 B may use any type of volatile or non-volatile storage techniques and mediums. The memories  18 A,  18 B may store information related to the status of a user, wireless earpieces  12 , and other peripherals, such as a wireless device, smart case  26  for the wireless earpieces  12 , smart watch, and so forth. In one embodiment, the memories  12  may display instructions or programs for controlling a user interface  7  including one or more LEDs  24 A,  24 B or other light emitting components, speakers  16 A,  16 B, tactile generators (e.g., vibrator), and so forth. The memories  18 A,  18 B may also store the user input information associated with each command. The memories  18 A,  18 B may store user preferences including parameters, settings, factors, user information, and so forth that may be utilized to implement automatic or manual processes as are herein described. 
     In one example, the memories  18 A,  18 B may store data, operating systems, instructions, and/or applications related to the functioning of the wireless earpieces  12 . For example, memories  18 A,  18 B may store information encoded in one or more signals received from the smart case  26  concerning the battery life or functionality of one or more wireless earpieces  12 , the functionality of the smart case  26 , or product information related to the operation of the wireless earpieces  12  from a manufacturer, licensor, or distributor of the wireless earpieces  12  or one or more components of the wireless earpieces  12 . In addition, the memories  18 A,  18 B may store information encoded in signals received from electronic devices other than the smart case  26 . For example, memories  18 A,  18 B may store media downloaded from a mobile phone, a tablet, a laptop, a desktop, a communications tower, a Wi-Fi hotspot, or another electronic device capable of transmitting signals. Other information desired by the user or a third party may also be stored on memories  18 A,  18 B. 
     Transceivers  20 A,  20 B may be mounted within earpiece housings  14 A,  14 B. The transceivers  20 A,  20 B are components including both a transmitter and receiver which may be combined and share common circuitry, chip, on a single housing. The transceivers  20 A,  20 B may be configured to transmit information between the wireless earpieces  12  or the smart case  26 . Transceivers  20 A or  20 B may be near field magnetic imaging (NFMI) transceivers, Bluetooth transceivers, WiMax transceivers, Wi-Fi transceivers, or other transceivers meeting one or more IEEE standards. Transceivers  20 A,  20 B may also be capable of receiving signals from electronic devices located at substantial distances from the user or earpiece. For example, signals received from a mobile phone or a radio tower (e.g., 3G, 4G, 5G, PCS, LTE, etc.) encoding media or information related to the wireless earpieces  12  or smart case  26  by transceiver  20 A may be retransmitted by transceiver  20 A to transceiver  20 B, which may further communicate the signal to processor  22 B, memory  18 B, or even the smart case  26 . Transceivers  20 A,  20 B may also receive signals from the smart case  26  related to the operation of either the smart case  26  or the wireless earpieces  12  or media or information stored in a memory operatively connected or accessible to the smart case  26 . More than one type of transceiver may be located in an earpiece. For example, the transceivers  20 A,  20 B may be a hybrid or multi-mode transceiver that supports a number of different communications. For example, the transceivers  20 A,  20 B may communicate with a smart phone utilizing Bluetooth communications and with each other (or other wireless earpieces) utilizing NFMI. 
     Processors  22 A,  22 B may be disposed, mounted, or integrated within the earpiece housings  14 A,  14 B and operatively connected to the components of the respective wireless earpieces  12  including, but not limited to, speakers  16 A,  16 B, memories  18 A,  18 B and transceivers  20 A,  20 B. In one embodiment, the processors  22 A,  22 B include circuitry or logic enabled to control execution of a set of instructions. The processors  22 A,  22 B may be one or more microprocessors, digital signal processors, application-specific integrated circuits (ASIC), central processing units, or other devices suitable for controlling an electronic device including one or more hardware and software elements, executing software, instructions, programs, and applications, converting and processing signals and information, and performing other related tasks. 
     The processors  22 A,  22 B may be configured to process information received from the various components. The processors  22 A,  22 B may execute any number of operating systems, kernels, applications, or instructions. For example, processors  22 A,  22 B may execute a program stored in memories  18 A,  18 B related to energy management in order to determine the appropriate amount of energy to provide to the various components of the wireless earpieces  12 . For example, the determination may use information encoded in a signal received from transceivers  20 A,  20 B in order to determine the appropriate amount of energy to provide each wireless earpiece component. In addition, the processors  22 A,  22 B may instruct the speakers  16 A,  16 B to communicate the amount of energy each of the wireless earpieces  12  has available either intermittently or in response to a command from the user or a third party, user preferences, detected events, or so forth. 
     LEDs  24 A,  24 B may be operatively connected to or mounted within the earpiece housings  14 A,  14 B. The LEDs  24 A,  24 B RA are semiconductor based light sources. The LEDs  24 A,  24 B may also include displays, touch sensors, or other interface components. The LEDs  24 A,  24 B may be configured to provide information concerning the wireless earpieces  12 . For example, processors  22 A,  22 B may communicate a signal encoding information related to the current time, the battery life of the earpiece, the status of another operation of the earpiece, or another earpiece function, wherein the signal is decoded and displayed by the LEDs. For example, processors  22 A,  22 B may communicate a signal encoding the status of the energy level of the wireless earpieces  12 . For example, the energy level may be decoded by LEDs  24 A,  24 B as a blinking light, a green light may represent a substantial level of battery life, a yellow light may represent an intermediate level of battery life, a red light may represent a limited amount of battery life, and a blinking red light may represent a critical level of battery life requiring immediate recharging. In addition, the battery life may be represented by the LEDs as a percentage of battery life remaining or may be represented by an energy bar having one or more LEDs. The number of illuminated LEDs represents the amount of battery life remaining in the wireless earpieces  12 , respectively. The LEDs  24 A,  24 B may be located in any area on the wireless earpieces  12  suitable for viewing by the user or a third party and may include a single diode which may be provided in combination with a light guide. In addition, the LEDs  24 A,  24 B need not have a minimum luminescence. 
     The smart case  26  is a storage for the wireless earpieces  12 . The smart case  26  may be utilized to charge, synchronize data, update software, and protect the wireless earpieces  12 . In one example, the smart case  26  may store  2 - 6  wireless earpieces  12 . In one embodiment, the smart case  26  may include a case housing  28 , a set of receptacles  30  disposed within the case housing  28  and configured to define the contours of the wireless earpieces  12 , one or more electromechanical connectors  32  disposed within each receptacle  30 , a memory device  34  operatively connected to the case housing  28 , a transceiver  36  operatively connected to the case housing  28 , an energy source  38  disposed within the case housing  28  and operatively connected to each component of the smart case  26 , and a processor  40  disposed within the case housing  28  and operatively connected to each component of the smart case  26 . The internal components may be located at any suitable location within the smart case  26 . 
     The smart case  26  may have one or more of the wireless earpieces  12  removably connected to one or more electromechanical connectors  32 . The user or a third party may remove one or more of the wireless earpieces  12  if the user wishes to use one of the wireless earpieces  12  or a wireless earpiece the user or third party is using needs to be recharged in one of the receptacles  30 . If the user or third party remove one of the wireless earpieces  12  from the smart case  26 , the smart case  26  may initiate a connection with the detached wireless earpiece by executing a program stored on the memory device  34  via the processor  40  to transmit a signal via the transceiver  36  to the detached wireless earpiece, which may establish the connection in response to the signal from the smart case  26 . The signal may encode instructions for synchronizing data stored or received by the wireless earpiece with data stored or received by the smart case  26  or other earpieces of the earpiece set  12  attached to one of the electromechanical connectors  32  of the smart case  26 . 
     Alternatively, if the user or third party removes one of the wireless  12  from an electromechanical connector  32 , that wireless earpiece may initiate a connection with the other wireless earpieces  12  connected to the electromechanical connectors  32 . The connection may be initiated using a program stored in a memory device of the detached wireless earpiece executed by a processor in the detached wireless earpiece to transmit a signal via a transceiver of the detached wireless earpiece to each wireless earpiece attached to an electromechanical connector  32 . The wireless earpieces  12  that receive the signal may communicate a response signal to the detached wireless earpiece to establish the connection. In addition, the one or more of the response signals may establish data synchronicity with the detached wireless earpiece. 
     The case housing  28  may be composed of plastic, metal, polymers, nonmetal materials, or any material or combination of materials having substantial deformation resistance in order to facilitate energy transfer if a sudden force is applied to the smart case  26 . For example, if the smart case  26  is dropped by a user, the case housing  28  may transfer the energy received from the surface impact throughout the entire smart case  26 . In addition, the case housing  28  may be capable of a degree of flexibility in order to facilitate energy absorbance if one or more forces is applied to the smart case  26 . For example, if an object is dropped on the smart case  26 , the case housing  28  may bend in order to absorb the energy from the impact. The flexibility of the case housing  28  is not, however, flexible to the point where one or more components of the smart case  26  may become dislodged or otherwise rendered non-functional. 
     Receptacle set  30  may be disposed within the case housing  28  and may substantially define the contours of a wireless earpiece. Only a portion of a wireless earpiece may be substantially defined, and the space between an attached wireless earpiece and the inner surface of each receptacle may be anywhere from very limited to substantial depending on the size of a wireless earpiece relative to the smart case  26 . 
     Electromechanical connectors  32  may be disposed within each receptacle of receptacle set  30  and may be configured to couple to a wireless earpiece. The coupling may be by way of magnetic coupling and/or mechanical coupling. For example, each electromechanical connector  32  may be magnetized in order to couple with a metallic element of a wireless earpiece, or each electromechanical connector may have a latch in which to hook the wireless earpiece. It may be appreciated that more than one way of mechanically latching a wireless earpiece to an electromechanical connector may be employed. In addition, each electromechanical connector may be configured to facilitate energy transfer from the energy source  38  to each wireless earpiece or facilitate data transfer between the memory device  34 , the transceiver  36  or the processor  40  and an earpiece coupled to the electromechanical connector. 
     A memory  34  may be operatively connected to or mounted within the case housing  28  and may store data and/or applications related to the functioning of the smart case  26 . For example, the memory  34  may store one or more software applications, instructions, or data related to the battery life of the smart case  26 , the smart case  26 , a wireless earpiece within the earpiece set  12 , or product information related to the components or operation of the smart case  26  or the wireless earpieces  12  from a user, manufacturer, licensor, service provider, or distributor. In addition, the memory  34  may store information encoded in signals received from wireless earpieces  12  or other electronic devices. For example, the memory  34  may store media downloaded from a mobile phone, a tablet, a laptop, a desktop, a communications tower, a Wi-Fi hotspot, or another electronic device capable of transmitting signals. In addition, the memory  34  may store information encoded in signals from a detached wireless earpiece related to the wireless earpiece&#39;s battery life or information stored in memories  18 A or  18 B if data synchronization has been established. Other information desired by the user or a third party may also be stored on device  34 . 
     Transceiver  36  may be disposed within the case housing  28  and may be configured to transmit information to or receive information from the wireless earpieces  12 . For example, the processor  40  of the smart case  26  may instruct the transceiver  36  to transmit a signal encoding information related to data synchronization to a detached wireless earpiece in order to better facilitate data synchronization. A detached wireless earpiece may respond by, for example, modifying its sample or processing rate, and transmitting the new sample or processing rate to the transceiver  36 . In one embodiment, the transceiver  36  may be a near field magnetic imaging (NFMI) transceiver, a Bluetooth transceiver, a WiMax transceiver, a Wi-Fi transceiver, or another transceiver meeting one or more IEEE standards. The transceiver  36  may also be capable of receiving signals from electronic devices located at substantial distances from the user or wireless earpieces  12 . For example, signals received from a mobile phone or a radio tower encoding media or information related to the wireless earpieces  12  or smart case  26  by transceiver  36  may be retransmitted by transceiver  36  to transceivers  20 A or  20 B. Transceiver  36  may also receive signals related to media or information that the user or a third party desires to listen to. More than one type of transceiver may be located in the wireless earpieces  12 . 
     Energy source  38  may be disposed within the case housing  28  and operatively connected to each component within the smart case  26 . The energy source  38  may represent a rechargeable battery, solar cell, piezo electric generator, thermal generator, ultra-capacitor, fuel cell, or other power storage or generation device. The energy source  38  should provide enough power to both operate the smart case  26  and recharge the wireless earpieces  12  coupled with the electromechanical connector  32 . The energy source  38  may be of any type suitable for powering the smart case  26 . However, the energy source  38  need not be present in the smart case  26 . Alternative battery-less power sources, such as sensors configured to receive energy from radio waves (all of which are operatively connected to the smart case  26 ) may be used to power the smart case  26  in lieu of the energy source  38 . 
     Processor  40  may be disposed within the case housing  28  and operatively connected to each electromechanical connector  32 , the memory device  34 , the transceiver  36 , and the energy source  38  and may be configured to process information encoded in signals received from the transceiver  36 , process information stored in memory device  34 , execute one or more programs stored in memory device  34  or within the processor  40  itself, or communicate signals encoding information to any wireless earpieces connected to the electromechanical connector  32 . For example, the processor  40  may execute a program stored in the memory device  34  related to the energy management of the smart case  26  and the earpiece set  12  using information concerning earpiece battery life encoded in signals received by the transceiver  36  to determine how much energy is available to provide to the various components of the smart case  26  after recharging one or more detached wireless earpieces  12 . In addition, the processor  40  may communicate data and/or instructions from the memory  34  or instructions encoded in signals received by the transceiver  36  via the electromechanical connectors  32  to one or more the wireless earpieces  12  currently coupled with the electromechanical connector  32 . 
       FIG. 2  illustrates one embodiment of a system  10  including set of wireless earpieces  12  and the smart case  26 . The set of wireless earpieces  12  are either a pair of left earpieces or a pair of right earpieces and are operatively connectable to electromechanical connectors  32  found in each receptacle  30  of the smart case  26 . More than one pair of left or right earpieces may be used if desired. Upon being removed from a receptacle, the smart case  26  initiates a connection to the detached wireless earpiece of the wireless earpieces  12  via a signal transmitted by the transceiver  36 . The detached wireless earpieces  12  may establish the connection automatically, in response to an algorithm stored in the memories ( 18 A or  18 B), or in response to a user command. For example, if the detached wireless earpiece does not establish the connection automatically, the detached wireless earpiece may establish the connection in response to a specific set of instructions delineating in what circumstances the wireless earpiece is to establish a connection (such as the battery life remaining in the wireless earpiece or how much space is available in the memories ( 18 A or  18 B)) or may establish a connection in response to a voice command provided by the user. 
     The signal received from the transceiver  36  may also include instructions for synchronizing data between one or more detached wireless earpieces and the smart case  26 . For example, media or information received or stored by the smart case  26  may be directly transmitted to a detached wireless earpiece and vice-versa via the connection. In addition, the processor  40  of the smart case  26  may transmit data received from the detached wireless earpiece to any wireless earpieces currently coupled with the electromagnetic connector  32 . The connection may be terminated by reconnecting the detached wireless earpiece to the smart case  26 , via a voice command by the user or a third party, or via an algorithm stored in either the memory of a detached wireless earpiece or the memory  34  of the smart case  26 . 
       FIG. 3  illustrates how a connection may be established between the smart case  26  and at least one of the wireless earpieces  12  after a wireless earpiece is detached from an electromechanical connector of the smart case  26 . First, a wireless earpiece is detached from the smart case  26 . The detachment may be performed by the eventual user or wearer of the earpiece or another third party. Immediately after detachment of a wireless earpiece  13 , the smart case  26  initiates a connection to the detached wireless earpiece  13 . The connection may comprise data stored in the memory of the smart case or received from another electronic device. After initializing the connection, the wireless earpiece  13  may automatically establish the connection or a user may provide a voice command or other action to establish the connection. The voice command may be a simple word, a combination of words, a sound, or a combination of sounds, and more than one voice command may be used to establish the connection. The connection may be terminated by an additional voice command or by attachment of the detached earpiece to the smart case. 
       FIG. 4  illustrates an embodiment of the set of wireless earpieces  12  which includes a pair of left earpieces  12 . Each left earpiece comprises earpiece housing  14 A. Each left earpiece  12  may be configured to substantially fit within a user&#39;s left ear cavity in order to improve audio transparency. Each earpiece housing  14 A may be composed of any material or combination of materials providing energy transference and absorbance in response to an applied force to the earpiece. 
     Microphones  15 A are shown on the left earpieces  12 A. The microphones are audio input devices. As shown, the microphones  15 A may represent over-air microphones. The left earpieces  12  may also include ear-bone or bone-conduction microphones that may be positioned anywhere on the exterior or interior of the earpiece housing  14 A. Microphones  15 A may be located anywhere on the earpiece housings  14 A of the left earpieces  12  and each microphone may be configured to receive one or more voice commands from the user or third party. For example, a user may use a voice command such as, “Synchronize data stream with my earpiece case” in order to establish data synchronization with the smart case  26  in order to upload a song downloaded from a Wi-Fi hotspot to the smart case  26  for future use with another wireless earpiece. Speakers  16 A may be configured to communicate warnings or instructions related to the functioning of the wireless earpiece, media or information from another communications hub, media or information received from the smart case  26 , or media or information received from another outside electronic device. 
     The components of the set of wireless earpieces  12  (and the smart case  26 ) may be electrically connected utilizing any number of wires, contact points, leads, busses, wireless interfaces, or so forth. In addition, the set of wireless earpieces  12  may include any number of computing and communications components, devices or elements which may include busses, motherboards, printed circuit boards, circuits, chips, sensors, ports, interfaces, cards, converters, adapters, connections, transceivers, displays, antennas, and other similar components that may not be specifically shown. 
       FIG. 5  illustrates a detached wireless earpiece  13  and its relationship to a network  40 . A detached wireless earpiece  13  may be connected to a mobile phone  41 , another detached wireless earpiece  13 , the smart case  26 , or one or more data servers through a network  40  and the detached earpiece  13  may be simultaneously connected to more than one of the foregoing devices. The network  40  may communicate with servers  42 . The servers may include one or more databases  44  for storing data and information. The servers  42  may represent a server farm or portions of a cloud network that may be utilized to save data, information, and instructions that may facilitate the implementation of all or portions of the described embodiments. 
     The network  40  may be the Internet, a Local Area Network, or a Wide Area Network, and the network may comprise one or more routers, one or more communications towers, or one or more Wi-Fi hotspots, and signals transmitted from or received by the detached wireless earpiece  13  may travel through one or more devices connected to the network before reaching their intended destination. For example, if the user wishes to upload a piece of media stored on a mobile phone to the detached wireless earpiece  12 , a signal encoding the piece of media may be first uploaded to a router before being subsequently uploaded to the smart case  26 , which may determine if the media file being uploaded is either too big or incompatible with the detached earpiece, and, after determining that the media file is suitable for the detached wireless earpiece, uploading the file to the detached earpiece. The smart case  26  may also upload the media file to one or more of the wireless earpieces  12  attached to an electromechanical connector  32  in accordance with an algorithm stored in memory executed by processor of the smart case  26 . 
     In one embodiment, the network  40  may be a personal area network. A personal area network is a network for data transmissions among devices, such as personal computing, communications, camera, vehicles, entertainment, and medical devices. The personal area network may utilize any number of wired, wireless, or hybrid configurations and may be stationary or dynamic. For example, the personal area network may utilize wireless network protocols or standards, such as INSTEON, IrDA, Wireless USB, near field magnetic induction (NFMI), Bluetooth, Z-Wave, ZigBee, Wi-Fi, ANT+ or other applicable radio frequency signals. In one embodiment, the personal area network may move with the user. 
       FIG. 6  is a flowchart of a process for connecting wireless earpieces in accordance with an illustrative embodiment. The process of  FIG. 6  may be implemented by one or more wireless earpieces communicating with each other as well as a smart case. The smart case may store as few as a single pair of wireless earpieces or as many as tens or hundreds of wireless earpieces for commercial applications. In one embodiment, a user or users may be able to swap out one of their wireless earpieces at any time because of a low battery, malfunction, cleaning, software update, size change, or so forth. The smart case may store multiple left and right wireless earpieces. In one embodiment, the distinct wireless earpieces may be linked automatically or based on user input. 
     In one embodiment, the process may begin by determining a wireless earpiece is removed from a smart case (step  602 ). The determination may be made in response to the wireless earpiece being physically removed from a receptacle (or disconnected from electrical contacts, port, or interface). A magnetic switch may detect the presence, or alternatively, removal of the wireless earpieces from an associated receptacle. The receptacles and associated connectors may be especially configured for a left or right wireless earpiece or may be for utilization of either (e.g., hybrid, ambidextrous, etc.). The determination may also be made in response to the wireless earpieces or an associated transceiver being powered on in response to being touched (e.g., tap, swipe, etc.), a voice command while in the smart case (e.g., turn on wireless earpiece number five), removal from the smart case, or so forth. In one embodiment, a determination that a particular wireless earpiece has been removed is made in response to detecting a link, connection, or signal. For example, the removed wireless earpiece may detect an unpaired wireless earpiece, one that is searching, or an available connection. 
     Next, the wireless earpiece searches for an associated wireless earpiece (step  604 ). An associated wireless earpiece is one or more wireless earpieces that a first wireless earpiece may connect to (e.g., a second wireless earpiece, third and fourth wireless earpieces, etc.). In one embodiment, a user may provide input for an already active wireless earpiece to connect to the wireless earpiece removed or detached from the smart case. For example, the user may tap, swipe, gesture, nod, give a voice/audible command, or provide other feedback detected by the wireless earpiece to search for the associated wireless earpiece. The command may be given to an already active or detached wireless earpiece. In another embodiment, the wireless earpieces may automatically search for other wireless earpieces within a specified range or distance threshold. 
     In one embodiment, the wireless earpieces may have been previously registered or authorized to communicate with a specified set of wireless earpieces. The authorization may be performed utilizing serial numbers, IMEIs, device names, device identifiers, utilization within a single smart case, user preferences, or so forth. For example, the user may utilize an application available through a smart phone to specify that all wireless earpieces connected to a smart case (e.g., in the moment, within a time period, at any time, etc.) are authorized to communicate with each other as sets or individual wireless earpieces. For example, an encryption key may be uploaded to each of the wireless earpieces that may communicate in the future to allow for authorized and secure communications. Different wireless earpieces may have different sets of keys, identifiers, or user preferences allowing for a securing connection/link with other wireless earpieces. 
     Next, the wireless earpiece detects the associated wireless earpiece (step  606 ). In one embodiment, a handshake or other exchange may indicate that the wireless earpieces have communicated. 
     Next, the wireless earpiece connects with the associated wireless earpiece (step  608 ). As previously disclosed any number of connections, standards, protocols, signals or transceivers may be utilized between wireless earpieces. In one embodiment, a first wireless earpiece (i.e., removed from the smart case) may connect to a second wireless earpiece. In another embodiment, the first wireless earpiece may connect to a second, third, and fourth wireless earpieces that may be worn or utilized by at least two users. In other embodiments, the first wireless earpiece may connect to an unlimited number of wireless earpieces. In one embodiment, a device identifier (e.g., IMEI, serial number, etc.) or other secure identifier may be utilized to ensure that the wireless earpieces may securely communicate. Any number of encryption or pairing processes may be utilized to ensure that only the selected wireless earpieces are connected. For example, biometric identifiers (e.g., voice, skin conductivity, gestures, tactile input, etc.) may be utilized to associate the various communicating wireless earpieces. Although not shown explicitly, the wireless earpieces may include any number of biometric sensors for measuring any number of biometric information and identifiers of one or more users that may wear/utilize the wireless earpieces. 
     Next, the wireless earpieces perform communications utilizing the wireless earpieces (step  610 ). The communications may include audible communications, software implementation, application execution, and so forth. For example, a user may utilize a first wireless earpiece (e.g., left wireless earpiece) and a second wireless earpiece (e.g., right wireless earpiece) to perform any number of associated tasks. For example, a team of players, workers, friends, or so forth may communicate utilizing a number of interconnected wireless earpieces. 
     The process of  FIG. 6  may be performed any number of times to exchange wireless earpieces. For example, in response to one left wireless earpiece having a low battery, it may be exchanged with another left wireless earpiece. This process may be repeated any number of times for low battery, damage, poor fit, sweat, blockage, or other purposes. 
     Therefore, various apparatus, systems, and methods have been shown and described. Although specific embodiments are shown and described, the present invention contemplates numerous variations, options, and alternatives including in structure and function and the present invention is not to be limited to the specific embodiments shown or described herein.