Matched betting arb finder relay

In the past, there was possibly a lag period behind an event occurring and odds changing in response, but these days the lag is miniscule. The bookmakers have gotten smarter and smarter when it comes to these kinds of loopholes in their systems and they have clamped down on this kind of activity.

Wikipedia has more information on the legalities, but in any case, it is frowned upon by sporting codes and they tend to ban spectators that they suspect are engaging in courtsiding. Is there another way to make money from sports betting?

The answer, surprisingly, is yes. The top 3 ways to make money from sports betting that are both reliable and entirely legal, are arbitrage betting, value betting and matched betting. Arbitrage Betting Arbitrage betting involves taking advantage of certain odds combinations to bet on all possible outcomes of a match with different bookmakers and profit regardless of which outcome occurs. As finding the various arbitrage opportunities is quite difficult, it is common to use arbitrage betting software to scan the bookmaker odds and alert you when it finds an arbitrage opportunity.

Value Betting Value betting is similar to arbitrage betting, but rather than betting on all of the different outcomes, you just bet on the outcome with overpriced odds. Again, finding value betting opportunities on your own can be difficult, so most people use free value betting software to find out the bets for them. If you do plan on finding them yourself, feel free to use my value betting calculator. Matched Betting Finally, matched betting is like arbitrage betting because it requires betting on all possible outcomes of a match, but it involves using bookmaker bonuses to boost profits further.

Whenever bookmakers offer signup and reload bonuses or ongoing promotions, they are actually giving you tons of value that you can convert in cash, if you know what you are doing. Bonuses that involve doubling your deposit in the form of free bets, or your bet winning even if your horse comes 2nd or 3rd all represent value that can be exploited for profit. If anyone tells you that you can make money from match fixing or courtsiding, your best bet is to just let it go.

You are much better off engaging in methods that are mathematically profitable, like arbitrage, value or matched betting. It usually takes them a few months to realise though, and in this time you can make plenty of money! For more info, check out my free arbitrage betting course. In at least one embodiment, gesture-based input may be based, at least in part, on characteristics relating to a actual path s traveled by the device, which, for example, may be represented as a holistic view of a set of points traversed.

In particular embodiments, movement of the device intended as a gesture may be recognized as by the device as a gesture by matching a series, sequence or pattern of accelerations of the movement to those defining gestures of a gesture database. In other embodiments, at least some handheld device may not include some of the components of the handheld device illustrated in FIG.

For example, in at least one other embodiment, a handheld device may not include input component s which are distinct from the motion detection component s. In at least one embodiment, the motion of the handheld device may provides the sole or primary input mechanism for the device.

It should be noted that handheld devices in accordance with other embodiments may include additional components not specifically illustrated with respect to device As illustrated in the example of FIG. In at least one embodiment, the handheld device may also have a unique, statically or dynamically assigned device identifier e.

For example, in some embodiments, each handheld device may be assigned a different frequency to be used for communicating with a particular gaming system to thereby allow multiple handheld devices to communicate with the gaming system at the same time. In other embodiments, a plurality of handheld devices may use the same frequency for communicating with a particular gaming system, but may each be assigned different timeslots for transmitting its information to the gaming system.

In this way wireless message collisions may be avoided. For example, as shown in the example of FIG. In one embodiment, accelerometers a, b and c may be operable to detect movement of the handheld device by detecting acceleration along one or more respective sensing axes.

In one embodiment, when the handheld device is tilted along a sensing axis of a particular accelerometer, the gravitational acceleration along the sensing axis may dynamically change. This change in gravitational acceleration may be detected by the accelerometer and reflects the tilt of the device.

Similarly, translation of the handheld device, or movement of the device without rotation or tilt may also produce changes in acceleration along one or more sensing axes, which may be detected by one or more of the accelerometers.

In the example embodiment of FIG. The use of three accelerometers for motion detection provides certain advantages. For example, if only two accelerometers were used, the motion detector may not be able to disambiguate translation of the handheld device from tilt in the plane of translation. However, using a third, z-axis accelerometer an accelerometer with a sensing axis at least approximately perpendicular to the sensing axes of the other two accelerometers enables many cases of tilt to be disambiguated from many cases of translation.

According to one embodiment, camera component s may include a plurality of cameras which may comprise charge coupled device CCD cameras or other optical sensors. In one embodiment, the cameras may provide another way to detect movement of the handheld device both tilt and translation. Additionally, by using at least two cameras, tilt and translation may be distinguished from each other.

In at least one embodiment, when the handheld device is rotated, the magnitude of the movement of the external world to the cameras may be directly related to the magnitude of the rotation of the device. Thus, for example, in one embodiment, the amount of the rotation can accurately be determined based on such movement of the external world from the perspective of the cameras.

However, in at least one embodiment, when the device is translated, the magnitude of the translation may be related to both the magnitude of the movement of the external world to the cameras and to the distance to the objects in the field of view of the cameras. Accordingly, in at least some embodiments, in order to accurately determine the amount of translation using cameras alone, it may be desirable to obtain some form of information concerning the distance to objects in the camera fields of view.

For example, optical camera input may be used to inform the handheld device that no significant motion is taking place. This could provide a solution to problems of drift which may be inherent in using acceleration data to determine absolute position information for certain device functions.

As discussed above, distance information may be useful to determine amount of translation when cameras are being used to detect movement. In the example of FIG. Other components may also be used to determine distance information. For example, cameras with rangefinding capabilities may be used. In one embodiment, multiple cameras may be utilized on the same side of the handheld device to function as a range-finder using stereopsis.

As shown in the example of FIG. In at least one embodiment, gyro component s may be used in combination with the other components of motion detection device to provide increased accuracy in detecting movement of the handheld device. In at least one embodiment, the motion detection device may include one or more processors e.

Processor may comprise a microprocessor, controller or any other suitable computing device or resource, such as a video analysis module for receiving a video stream from each camera. In some embodiments, the processing described herein with respect to processor of motion detection device may be performed by processor 16 of handheld device 10 or any other suitable processor, including processors located remote to the handheld device.

It will be appreciated that, in other embodiments, one or more motion detection devices may include additional, fewer, or different components than those illustrated in FIGS. For example, some embodiments may include a motion detector device with two or three accelerometers and one or more gyros; two or three accelerometers and one or more cameras; or two or three accelerometers and one or more rangefinders, etc.

In addition, the location of the motion detection components on the handheld device may vary for different embodiments. For example, some embodiments may include cameras on different surfaces of a device, while other embodiments may include two cameras on the same surface. Altering the type, number and location of components of motion detection device may affect the ability of motion detector to detect or accurately measure various types of movement.

As indicated above, the type and number of components of motion detectors may vary in different embodiments in order to fulfill particular needs. Fewer or less accurate components may be used in particular embodiments when it is desired to sacrifice accuracy to reduce manufacturing cost of a handheld device with motion detection capabilities. For example, some handheld devices may only need to detect that the handheld device has been translated and may not need to detect exact amount of such translation to perform desired functions of the handheld device.

In particular embodiments, components described above, such as cameras and rangefinders, may also be used for other purposes by the handheld device than those described above relating to motion detection functionality. Other handheld device embodiments not shown may include different or other components than those illustrated in FIG. For example, handheld device may include, but not limited to, one or more of the following or combination thereof : At least one processor or CPU Memory , which, for example, may include volatile memory e.

For example, in at least one implementation, the wireless communication interface s may be configured or designed to communicate with components of electronic game tables, electronic gaming machine, remote servers, electronic gaming machines, other wireless devices e. At least one power source In at least one implementation, the power source may include at least one mobile power source for allowing the handheld device to operate in a mobile environment.

For example, in one implementation, the battery may be implemented using a rechargeable, thin-film type battery. Further, in embodiments where it is desirable for the handheld device to be flexible, the battery may be designed to be flexible.

One or more display s if desired. In at least one implementation, display s may be adapted to be flexible or bendable. Additionally, in at least one embodiment the information displayed on display s may utilize e-ink technology such as that available from E Ink Corporation, Cambridge, Mass. In some embodiments, it may be desirable to not include a display at the handheld device. One or more status indicators For example, in one implementation, one or more colored status indicators such as, for example, LEDs may be included on one or more sides of a handheld device, and adapted to provide various information such as, for example: communication status; game play status; bonus status, handheld device health status; handheld device operating mode; battery power status; battery charging status; status of cards being dealt; input or gesture detection status; error detection status; team status; out of range status; etc.

In one embodiment, the motion detection component may be operable to detect gross motion of a user e. Additionally, in at least one embodiment, the motion detection component may further be operable to perform one or more additional functions such as, for example: analyze the detected gross motion or gestures of a participant; interpret the participant's motion or gestures e.

In other embodiments, at least a portion of these additional functions may be implemented at a remote system or device. In one embodiment, the handheld device may also be adapted to analyze the detected motion data in order to interpret the gesture or other input data intended by the player. Once interpreted, the handheld device may then transmit the interpreted player input data e.

Alternatively, the handheld device may be adapted to transmit information relating to the detected motion data to the game table, and the game table adapted to analyze the detected motion data in order to interpret the gesture or other input data intended by the player.

For example, the interpretation of the detected motion data may be constrained based on one or more of the following criteria or combination thereof : type of game being played e. One embodiment of the Spring Board Accelerometer may be implemented in a manner similar to that of a diving board, in that it may be attached at one end and may be allowed to bend under the influence of gravity. If desired, a specified amount of mass may be added to the free end.

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