First RNC, a second RNC, a base station, an OAM node and methods therein for handling a reuse of a scrambling code in a cellular network

The invention claimed is: 1. A method in a radio network controller for handling a reuse of a scrambling code in a cellular network, the method comprising: defining a set of scrambling codes, wherein each scrambling code in the defined set of scrambling codes is locally reused in at least two cells in the cellular network, receiving a measurement report from a user equipment, which measurement report is related to a scrambling code that is comprised in the defined set of scrambling codes, determining that the reported scrambling code is comprised in the defined set of scrambling codes, and initiating, upon determining that the reported scrambling code is comprised in the defined set of scrambling codes, a process for identifying, among the at least two cells in which the reported scrambling code is locally reused, an originating cell from which the reported scrambling code originates, wherein the initiating is performed by sending a respective cell identification request to each respective base station that serves a respective cell of the at least two cells in which the reported scrambling code is locally reused, which cell identification request comprises an identifier of the user equipment, and which cell identification request commands the respective base station to detect the identifier of the user equipment within the respective cell. 2. The method of claim 1 , further comprising sending a message to the user equipment, which message commands the user equipment to use a neighboring cell relation list comprising the defined set of scrambling codes. 3. The method of claim 1 , further comprising receiving, in response to the cell identification request, a cell identification response, the cell identification response indicates that the identifier of the user equipment has been detected within one responding cell of the at least two cells, and identifying the originating cell as the one responding cell. 4. The method of claim 1 , further comprising: receiving in response to the cell identification request more than one cell identification responses, determining based on the more than one cell identification responses that there is a scrambling code collision between more than one responding cells, and initiating an additional process for preventing further reuse of the reported scrambling code in the more than one responding cells. 5. The method of claim 1 , wherein at least one of the respective base stations is controlled by a second radio network controller, and wherein the respective cell identification request is sent to the at least one of the respective base stations via the second radio network controller, and wherein the respective cell identification request comprises the reported scrambling code. 6. The method of claim 5 , wherein at least one responding cell is controlled by the second radio network controller, wherein at least one cell identification response is received from the second radio network controller and wherein the at least one cell identification response further comprises a unique identifier of the at least one responding cell. 7. The method of claim 1 , wherein the scrambling codes in the defined set of scrambling codes are reserved for use in cells which are served by base stations using transmission powers below a threshold. 8. The method of claim 1 , wherein the defined set of scrambling codes comprises a number of scrambling codes determined as a difference between a total number of neighboring cell scrambling codes that the radio network controller is able to configure for the user equipment and an estimated number of neighboring cells that are not underlay cells. 9. The method of claim 1 , wherein the defining comprises obtaining the set of scrambling codes from an Operations and Maintenance node. 10. A radio network controller for handling a reuse of a scrambling code in a cellular network, the radio network controller comprising: a processor that defines a set of scrambling codes, wherein each scrambling code in the defined set of scrambling codes is locally reused in at least two cells in the cellular network, and a receiver that receives a measurement report from a user equipment, which measurement report is related to a scrambling code that is comprised in the defined set of scrambling codes, wherein the processor determines that the reported scrambling code is comprised in the defined set of scrambling codes, and the processor initiates, based on the determination that the reported scrambling code is comprised in the defined set of scrambling codes, a process for identifying, among the at least two cells in which the reported scrambling code is locally reused, an originating cell from which the reported scrambling code originates, wherein the processor performs the initiating by sending a respective cell identification request to each respective base station that serves a respective cell of the at least two cells in which the reported scrambling code is locally reused, which cell identification request comprises an identifier of the user equipment, and which cell identification request commands the respective base station to detect the identifier of the user equipment within the respective cell. 11. The radio network controller of claim 10 , further comprising a transmitter that sends a message to the user equipment, which message commands the user equipment to use a neighboring cell relation list comprising the defined set of scrambling codes. 12. The radio network controller of claim 10 , wherein the receiver receives, in response to the cell identification request, a cell identification response, which cell identification response indicates that the identifier of the user equipment has been detected within one responding cell of the at least two cells, and wherein the processor identifies the originating cell as the one responding cell. 13. The radio network controller of claim 10 , wherein the receiver receives in response to the cell identification request more than one cell identification responses, wherein the processor determines based on the more than one cell identification responses that there is a scrambling code collision between more than one responding cells, and initiates an additional process for preventing further reuse of the reported scrambling code in the more than one responding cells. 14. The radio network controller of claim 10 , wherein at least one of the respective base stations is controlled by a second radio network controller, and wherein the respective cell identification request is sent to the at least one of the respective base stations via the second radio network controller, and wherein the respective cell identification request comprises the reported scrambling code. 15. The radio network controller of claim 14 , wherein at least one responding cell is controlled by the second radio network controller, wherein the receiver receives at least one cell identification response from the second radio network controller and wherein the at least one cell identification response further comprises a unique identifier of the responding cell. 16. The radio network controller of claim 10 , wherein the scrambling codes in the defined set of scrambling codes are reserved for use in cells which are served by base stations using transmission powers below a threshold. 17. The radio network controller of claim 10 , wherein the defined set of scrambling codes comprises a number of scrambling codes determined as a difference between a total number of neighboring cell scrambling codes that the radio network controller is ab