Source: https://patents.google.com/patent/JP4237838B2/en
Timestamp: 2020-07-11 12:50:28
Document Index: 507248503

Matched Legal Cases: ['arty 20', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 20', 'arty 40', 'arty 40', 'arty 20', 'arty 40', 'arty 20', 'arty 20', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 40', 'arty 20', 'arty 40', 'arty 20', 'arty 20', 'arty 20', 'arty 40', 'arty 40', 'arty 20', 'arty 20', 'arty 40', 'arty 20', 'arty 40', 'arty 20', 'arty 40', 'arty 40', 'arty 40', 'arty 20', 'arty 40', 'arty 40', 'arty 20', 'arty 40', 'arty 60']

JP4237838B2 - Method and system for call screening - Google Patents
JP4237838B2
JP4237838B2 JP32021597A JP32021597A JP4237838B2 JP 4237838 B2 JP4237838 B2 JP 4237838B2 JP 32021597 A JP32021597 A JP 32021597A JP 32021597 A JP32021597 A JP 32021597A JP 4237838 B2 JP4237838 B2 JP 4237838B2
JP32021597A
JPH10178487A (en
マーヴィン フーバー ケネス
チャールズ サリマンド スチーヴン
ローウェル ハンソン ブルース
コレイ ディー ヘザー
ジョン ジョセフ ユージェン
1996-11-21 Priority to US08/754,662 priority Critical patent/US5835573A/en
1996-11-21 Priority to US08/754662 priority
1997-11-21 Application filed by エイ・ティ・アンド・ティ・コーポレーションＡｔ＆Ｔ Ｃｏｒｐ． filed Critical エイ・ティ・アンド・ティ・コーポレーションＡｔ＆Ｔ Ｃｏｒｐ．
1998-06-30 Publication of JPH10178487A publication Critical patent/JPH10178487A/en
2009-03-11 Publication of JP4237838B2 publication Critical patent/JP4237838B2/en
230000000977 initiatory Effects 0.000 claims description 21
The present invention relates generally to a method and system for providing call screening capabilities in the context of various network-based call services.
Consumers have traditionally used telephone answering machines to allow callers to leave messages if the called party cannot answer the call. Recently, consumers are beginning to subscribe to as many network-based services as never before to ensure that they get all their calls. The increase in the number of subscribers to call waiting and call answering services (CAS) provided by many local telephone companies today is the result of this “I've got to get my calls) ”is a good example of the phenomenon.
Call waiting service is a customer call service that uses short tones or “clicks” to inform the subscriber that someone else has called in while the subscriber is on the phone. is there. When the subscriber receives this short tone or click, the subscriber can place the first call “on hold” and talk to the second caller. On the other hand, the call answering service (CAS) can record a message for the caller to the called party for all calls that encounter "no answer when called" or "busy". Redirect to the network voice messaging platform. In this service, the called party is provided with a message waiting indicator in the form of a stutter dial tone or a flashing light on the called party's telephone. When the called party detects this indication, it can dial the voice messaging platform and retrieve the recorded message from his / her mailbox.
One function that is not provided by any of the network-based services described above is the passive call screening service. That is, now the subscriber to the call waiting service has the ability to determine the identity of the second caller unless he actually puts the first call on hold and speaks with the second caller. Does not have. In addition, consumers face a dilemma in deciding whether to stop using traditional telephone answering machines and subscribe to call answering services. In other words, consumers can gain the ability to leave a message when the caller encounters a “busy state” by switching to a call answering service (conventional). In a telephone answering machine, the caller is given the opportunity to leave a message only when the caller encounters a “calling but no answer” condition, whereas the calling party Lose all ability to screen.
The methods and systems for providing call screening in the context of various network-based call services according to the present invention solve the above-mentioned problems and achieve technical advances. An exemplary method for providing call screening to a called party at a called party telephone (terminal) according to the present invention is: (a) a call destined for the called party telephone is called by the calling party. Transferring to a voice mailbox so that a message can be left for the called party; (b) initiating a call to the called party's telephone; and (c) voice mail. Bridging so that the called party can hear the call being transferred to the box and the call destined for the called party's phone to the calling party leaving a message to the called party's phone. Including the steps of: In one embodiment of the present invention, the step of initiating a call is directed to the called party's phone, indicating that the calling party is leaving a message towards the called party's phone (others). Sending a distinct and distinct call signal. In another embodiment of the invention, initiating the call includes sending a call waiting indicator to the called party's telephone. In yet another embodiment of the present invention, the step of initiating a call is directed to the called party phone indicating that the calling party phone has elected to pay a cellular charge associated with the call. A step of sending.
Other features of the present invention will become apparent from the following description when read in conjunction with the accompanying drawings.
In the drawings, like reference numerals indicate like elements throughout the drawings. Initially, FIG. 1 illustrates one embodiment of the present invention. As shown in FIG. 1, calling party 20 and called party 40 are coupled to telephone network switch 60. Switch 60 may be local to both the calling party and the called party (eg, for intra-LATA calls or local calls), or local to only one of these parties. (For example, a call other than a local call, for example, an inter-LATA call or a long-distance call). In the latter case, the switch 60 may be a transmission switch or a termination switch. Further, the switch 60 may be a central office switch or an inter-exchange carrier switch (eg, AT & T 4ESS toll tandem station). The switch 60 may also be a private branch exchange (PBX). Although not intended to be limiting, switch 60 of FIG. 1 is shown as a central office switch local to both the calling party and the called party. The switch 60 is then coupled to the automatic bridge module 80, although this function (as will be described in detail later) can be implemented as software located within the switch 60, or this auxiliary It can also be realized as software.
Switch 60 is also coupled to voice mailbox 100 assigned to called party 40. The voice mailbox 100 is not required, but is typically located in a voice messaging platform remote from the switch 60. Conventionally, the called party 40, retrieves the message, to manage a greeting, or, in order to send a voice message to other subscribers, it is possible to access to his or her e-mail box 100. However, according to the present invention, the called party 40 can also access the mailbox 100 for the purpose of activating call screening. To explain this in detail, if accessing the mailbox, the called party, the main menu of available options (e.g., retrieve messages, management of greeting, send voice messages, etc.) and, followed by Provided with an inventory of messages (inventory). According to the present invention, call screening is provided as one of the available options. The user can also set the call screening feature to automatically activate / deactivate at some time of day. Once the called party 40 has selected call screening (eg, via touchtone input), the switch 60 will be contacted appropriately and subsequent calls made to the called party 40 will be automatically In particular, it is forwarded to the voice mailbox 100 regardless of whether a “calling but no response” condition is encountered or a “busy condition” is encountered. As will be described in detail later in connection with FIG. 2, the automatic bridge module 80 functions to screen the called party 40 for these calls while the calling party 20 is leaving a message. I will provide a.
FIG. 2 shows the call flow for the embodiment of FIG. This call flow assumes that the called party 40 has already accessed his or her mailbox 100 and has already activated the call screening service of the present invention. This call flow further indicates that the switch 60 has already received this notification and has changed the state of the line of the called party 40 or the associated number to call screening according to this notification (for example, “ Assume that it is “on”. Further, although not intended to be limiting, switch 60 in the call flow of FIG. 2 may be local to both the calling party and the called party (ie, the call flow is within LATA). Assumed to be for calls or local calls).
As shown in FIG. 2, the calling party 20 goes off-hook and signals the (central office) switch 60 to initiate a call to the called party 40 (step 1). The switch 60 forwards the call to the automatic bridge module 80 (step 2), which can be implemented as software located inside the switch 60 as previously described, or alternatively, It can also be realized as auxiliary software. The automatic bridge module 80 makes a call to the called party's voice mailbox 100 (step 3) and receives a response from the called party's mailbox 100 (step 4). Next, the switch 60 gets a response from the automatic bridge module 80 and connects the calling party 20 to the automatic bridge module 80 (step 5). At this point, the calling party 20 is connected to the voice mailbox 100.
The automatic bridge module 80 initiates a call to the called party 40 and simultaneously initiates a simplex or “send only” call to the called party 40 (step 6). Here, this “transmission-only” call is a call during which the audio signal generated by the called party 40 is muted on the call. In contrast, for reasons explained later, the DTMF signal generated by the called party 40 is not muted on this “send only” call. Next, the switch 60 “calls” the called party's telephone (step 7). This call signal is a unique call signal that can inform the called party 40 that the caller 20 is currently leaving a message in the called party mailbox 100. On the other hand, in the case of a call waiting service, the automatic bridge 80 instead requests the switch 60 to send a short tone or “call waiting click” to the called party 40. When called party 40 answers the call, switch 60 connects called party 40 to automatic bridge 80 (step 8). On the other hand, in the case of a call waiting service, the called party 40 answers the call by pressing and releasing the receiver button on his or her telephone. The called party is thus bridged between the caller 20 and the mailbox 100 to an “in-progress call”, but any voice generated by the called party 40 as described above. The signal is muted during this call. Ideally, the called party 40, while the caller 20 is listening to personal / system greeting, or the caller, the called party's mailbox in the 100 towards the called party 40 It is bridged to this call when it begins to leave a message. In this way, the called party 40 can screen the call (step 9).
At this point, the called party 40 can also decide not to talk to the calling party 20. In this case, the called party 40 screening the calling party 20 while the calling party 20 leaves the message in the called party's mailbox 100 simply hangs up. Disconnect from the automatic bridge 80 (option 1, step 10). The calling party 20 can subsequently leave a message for the called party 40 (option 1, step 11). Alternatively, the called party 40 can decide to talk to the calling party 20. In this case, once the calling party 20 has been screened, the called party 40 signals to the automatic bridge 80 that it wishes to talk to the calling party 20 via, for example, predefined touch tone signaling. Send a signal to indicate. (Option 2, step 10). Then, the automatic bridge 80 requests the switch 60 to set up a bidirectional connection toward the called party 40, whereby (a) a call between the calling party 20 and the automatic bridge 80 is established. And (b) the call between the automatic bridge 80 and the called party 40 is bridged in the bidirectional mode (option 2, step 11). The automatic bridge 80 is then disconnected from the call (step 12).
The call screening function of the present invention can also be implemented in the same way for calls involving cellular telephone users, except that the call “charging type” identifier described below is additionally employed. it can. It is known in the art to provide “calling party payment” (CPP) services. In this service, the calling party is charged for all transport charges and cellular access charges associated with calls terminating at the cellular user. In accordance with the present invention, in the case of a CPP call, the automatic bridge 80, upon receiving a response from the called party 40 (step 8), directs the call charging type identifier to the called party 40, eg, a unique tone. To indicate that the call is a CPP call. The automatic bridge 80 determines whether the calling party 20 is a subscriber to such a service, and therefore an appropriate CPP knowing whether to send a call charging type identifier to the called party 40. Notified by service provider (eg, via SS7 signaling). In the case of a CPP call, the called party 40 is charged for the initial cellular charge to pick up the call and screen the call, but charge the calling party 20 for the charge after both are connected. Is done. Thus, the call billing type identifier provides additional call screening information to the cellular user. More specifically, it provides information on whether or not the calling party pays for the call and provides further judgment in determining whether or not the cellular user speaks with the calling party.
As described above, the architecture and call flow of FIG. 2 uses the traditional limited method: (i) using a conventional telephone answering machine; (ii) a network-based service, such as a call waiting service and In the context of cellular services, it does not have the ability to provide call screening and provides a call screening function that is not possible with the method.
Many features and advantages of the present invention will be apparent from the detailed description, and all of these features and advantages of the present invention are covered by the claims, all of which are within the spirit and scope of the present invention. Should be regarded as entering.
In addition, numerous modifications and variations will be readily apparent to those skilled in the art, and the invention is not limited to the specific structure and operation shown herein, and thus may be used. All suitable modifications and equivalents should be considered within the scope of the claims. For example, while the features and advantages of the present invention have been described within a single switch environment (ie, for local calls or intra-LATA calls), those skilled in the art will recognize these same features and advantages in accordance with the teachings of the present invention. Can be easily achieved in a multi-switch environment (ie for long distance calls or inter-LATA calls) or in a PBX environment.
FIG. 2 shows a call flow for the embodiment of FIG.
20 Calling party 40 Called party 60 Switch 80 Automatic bridge 100 Voice mailbox
A method for providing a callee party with the ability to screen a call at a called party terminal, the method comprising:
Transferring a call directed to the called party's terminal to a voice mailbox so that the calling party can leave a message to the called party;
Initiating a simple call to the called party's terminal; and so that the called party can hear the calling party leaving a message to the called party's terminal. Bridging the call forwarded to the voice mailbox and the simplex call directed to the called party's terminal;
The called party terminal is a cellular telephone, and the step of initiating the simplex call includes a call charge after the calling party terminal and the called party terminal are connected to the calling party terminal. Transmitting to the called party terminal a signal indicating whether or not to pay .
Initiating a bi-directional call to the called party terminal in response to signaling received from the called party terminal; and the call forwarded to the voice mailbox and the bi-directional call; The method of claim 1 including bridging.
A unique ringing signal indicating that the step of initiating the simplex call is in the process of leaving the calling party with a message to the called party's terminal towards the called party's terminal The method of claim 1 including the step of:
The method of claim 1, wherein initiating the simplex call comprises sending a call waiting indicator to the called party's terminal.
3. The method of claim 2, wherein the two-way call directed to the called party terminal is initiated in response to DTMF signaling received from the called party terminal.
Claim 2 wherein said step of bridging the facing was a call and said simplex call to the voice mailbox, and wherein the occurring while the calling party is listening to a personal / system greeting the method of.
A method for providing call screening capability to a called party at a called party's terminal, the method comprising:
Transferring a call directed to the called party's terminal to a voice messaging system so that the calling party can leave a message for the called party;
Initiating a simplex call towards the called party's terminal;
The call forwarded to the voice messaging system and the called party's terminal so that the called party can hear the calling party leaving a message to the called party's terminal. Bridging the directed simplex call;
Initiating a two-way call to the called party terminal in response to signaling received from the called party terminal; and the call and the two-way call transferred to the voice messaging system; Bridging so that the calling party and the called party can communicate,
The called party terminal is a cellular telephone, and the step of initiating the simplex call includes a call charge after the calling party terminal and the called party terminal are connected to the calling party terminal. Issuing a unique tone to the called party's terminal indicating whether or not to pay .
The step of initiating the simplex call includes a unique calling signal indicating that the calling party is currently leaving a message to the called party's terminal. 8. The method of claim 7, comprising sending to the terminal.
8. The method of claim 7, wherein initiating the simplex call comprises sending a call waiting indicator to the called party's terminal.
8. The method of claim 7, wherein the two-way call directed to the called party terminal is initiated in response to DTMF signaling received from the called party terminal.
The method of claim 7, wherein the step of bridging the call of the simplex and calls directed to the voice messaging system, characterized in that occur while the calling party is listening to salutation.
A method for providing an ability to screen a call to a called party at a called party's terminal, the method comprising:
Transferring a call directed to the called party's terminal to a voice mailbox so that the calling party can leave a message for the called party;
Initiating a call to the called party's terminal; and the voice so that the called party can hear the calling party leaving a message to the called party's terminal. Bridging the call forwarded to a mailbox and the call destined for the called party's terminal;
The called party terminal is a cellular telephone, and the step of initiating the call is whether the calling party pays a telephone fee after the calling party terminal and the called party terminal are connected . Transmitting a signal indicating whether or not to said called party's terminal.
The method of claim 12, wherein initiating the call includes sending a call waiting indicator toward the called party's terminal.
A system for providing call screening capability to a called party at a called party terminal in a network including a called party terminal and a called party terminal connected to a switch, the system comprising: :
A voice mailbox for storing voice messages; and automatic bridging means;
The switch sends a first call directed from the calling party terminal to the called party terminal to the automatic bridging means, the automatic bridging means comprising: (a) at the calling party terminal The first call is forwarded to the voice mailbox so that the caller can leave a message to the called party's terminal; and (b) simply to the called party's terminal. The simplex call start indicates whether or not the calling party pays a telephone fee after the calling party terminal and the called party terminal are connected. Initiating transmission of a signal to the called party's terminal, (c) allowing the called party to hear the calling party leaving a message to the called party's terminal. So that System for bridging the first call with said simplex call, that said.
15. The system of claim 14, wherein the switch is a private branch exchange.
15. The system of claim 14, wherein the switch is a central office switch.
15. The system of claim 14, wherein the switch is an interexchange carrier switch.
The automatic bridging means further includes:
(D) in response to DTMF signaling received from the called party terminal, initiating a bi-directional call towards the called party terminal;
15. The system of claim 14, wherein (e) the first call and the two-way call are bridged so that the calling party and the called party can communicate with each other.
15. The system of claim 14, wherein the automatic bridging means is provided within the switch.
15. The system of claim 14, wherein the automatic bridging means is provided as an attachment to the switch.
The automatic bridging means sends a unique paging signal to the called party terminal indicating that the calling party is in the process of leaving a message for the called party terminal. The system of claim 14.
15. The system of claim 14, wherein the automatic bridging means sends a call waiting indicator to the called party terminal.
A method for providing to a called party the ability to screen a first call for a called party placed by the calling party, the method comprising:
Initiating a second call setup between the network-based voice messaging system and the called party; and the calling party leaves a message to the called party in the network-based voice messaging system. Providing a voice signal of a calling party to the called party via the second call,
The called party terminal is a cellular telephone, and the step of initiating the setting of the second call is a charge after the calling party terminal and the called party terminal are connected to the calling party. Transmitting a signal to the called party's terminal indicating whether the party pays or not .
24. The method of claim 23, wherein the second call is a simplex call.
JP32021597A 1996-11-21 1997-11-21 Method and system for call screening Expired - Fee Related JP4237838B2 (en)
US08/754662 1996-11-21
JPH10178487A JPH10178487A (en) 1998-06-30
JP4237838B2 true JP4237838B2 (en) 2009-03-11
JP32021597A Expired - Fee Related JP4237838B2 (en) 1996-11-21 1997-11-21 Method and system for call screening
DE (2) DE69736509D1 (en)
DE19821584A1 (en) * 1998-05-14 1999-11-18 Alcatel Sa Procedure for the acceptance of call charges in individual connections as well as telephone network and terminal
FI107313B (en) * 1998-11-04 2001-06-29 Nokia Networks Oy Control of a multi-call in a telecommunications system
DE19920382A1 (en) * 1999-05-04 2000-11-09 Deutsche Telekom Ag Method and system for subscriber-side listening of a call coming in to a network mailbox
WO2011047737A1 (en) * 2009-10-23 2011-04-28 Telefonaktiebolaget L M Ericsson (Publ) Method and call controller for screening calls using a voicemail system on command of the called party
FI97511C (en) * 1994-12-23 1996-12-27 Nokia Telecommunications Oy Procedure for improving charging bases for a call price in a mobile telephone network
CA2213365C (en) 2000-06-27
JP3101768B2 (en) 2000-10-23 Voice Call Notification and Message Control by Data Path
2006-08-30 A601 Written request for extension of time
2007-09-27 A131 Notification of reasons for refusal