Communication system for fault tolerance in cascade topology and ring topology

What is claimed is: 1. A communication device connected to an end of a first network of a cascade topology, and also to a second network with a frame format different from the first network, the communication device comprising: a transmitter that transmits a first list to an opposing communication device, wherein the first list includes information of a first set of one or more communication devices in the first network, wherein the first set of one or more communication devices is one or more destinations of transmission of frames from the communication device through the first network, and wherein the opposing communication device is connected to the second network, and located at another end of the first network; a receiver that receives a second list from the opposing communication device, wherein the second list includes information of a second set of one or more communication devices in the first network, and wherein the second set of one or more communication devices is one or more destinations of transmission of frames from the opposing communication device through the first network; a storage that stores the first list and the second list; a controller that determines in which of the first list and the second list a destination of a frame is included; and a frame transmitter that transmits, in a case where a destination of a frame received from the first network is included in the second list, the frame to the second network, wherein the frame transmitter converts a frame received from the first network from a format used in the first network to a format used in the second network, and in the conversion, embeds information of a destination node of the frame in a position different from a field for storing destination information, wherein the position and the field for storing the destination information are in a header of the formal used in the second network. 2. The communication device according to claim 1 , wherein when a failure has occurred in the first network, the determiner searches the first list and the second list for the destination of the frame. 3. The communication device according to claim 1 , further comprising: a second frame transmitter that converts, when a destination of a frame received from the second network is included in the first list, the frame from the format used in the second network to the format used in the first network, stores, in the conversion, the information of a destination node of the frame in destination information in a header of the format used in the first network, wherein the information of the destination node of the frame is embedded in the position different from the field for storing destination information, and wherein the position and the field for storing destination information are in the header of the format used in the second network, and transmits the frame to the first network. 4. The communication device according to claim 1 , wherein, in the conversion, the frame transmitter embeds Quality of Service (QoS) information in the header of the format used in the first network, in a position different from a field for storing QoS information, wherein the position and the field for storing the QoS information are in the header of the format used in the second network. 5. The communication device according to claim 4 , further comprising: a second storage that stores QoS setting information for a normal time of the first network and QoS setting information for a time of occurrence of a failure in the first network; and a QoS manager that switches, at a time of occurrence of a failure in the first network, QoS setting information to be used to the QoS setting information for a time of occurrence of a failure in the first network. 6. The communication device according to claim 5 , wherein the second storage further stores QoS setting information for a time of occurrence of a failure in a third network of a cascade topology and the first network, wherein the third network is connected to the second network, and wherein the QoS manager switches, at a time of occurrence of a failure in both the first network and the third network, QoS setting information to be used to the QoS setting information for a time of occurrence of a failure in both the first network and the third network. 7. The communication device according to claim 1 , further comprising: a notifier that notifies the first set of one or more communication devices or the second set of one or more communication devices in the first network, of switching to QoS setting information that corresponds to a failure, at a time of occurrence of a failure in the first network, wherein the one or more communication devices in the first network stores QoS setting information that corresponds to normal operation of the first network and the QoS setting information that corresponds to occurrence of a failure in the first network, a notifier that notifies one or more communication devices in the first network, of switching to QoS setting information for a time of occurrence of a failure at a time of occurrence of a failure in the first network, wherein the one or more communication devices in the first network stores QoS setting information for a normal time of the first network and the QoS setting information for a time of occurrence of a failure in the first network. 8. The communication device according to claim 7 , wherein a third network of a cascade topology is connected to the second network, wherein the communication device in the first network further includes QoS setting information for a time of occurrence of a failure in both the first network and the third network, and wherein at a time of occurrence of a failure in both the first network and the third network, the notifier notifies the communication device in the first network of switching to the QoS setting information for a time of occurrence of a failure in both the first network and the third network. 9. The communication device according to claim 1 , wherein the first network is an Resilient Packet Ring (RPR) network, wherein the second network is an Ethernet network, and wherein, in the conversion, the frame transmitter inserts a Virtual Local Area Network (VLAN) tag in an Ethernet header, and stores, in the VLAN tag, destination node information in an RPR header of the frame. 10. A communication method to be performed by a communication device connected to an end of a first network of a cascade topology, and also to a second network with a frame format different from the first network, the method comprising: transmitting a first list to an opposing communication device, wherein the first list includes information of a first set of one or more communication devices in the first network, wherein the first set of one or more communication devices is one or more destinations of transmission of frames from the communication device through the first network, and wherein the opposing communication device is connected to the second network, and located at another end of the first network; receiving a second list from the opposing communication device, wherein the second list includes information of a second set of one or more communication devices in the first network, and wherein the second set of one or more communication devices is one or more destinations of transmission of frames from the opposing communication device through the first network; storing the first list and the second list; determining in which of the first list and the second list a destination of a frame is included; and transmitting, in a case where a destination of a frame received from the first network is included in the second list, the frame to the second network, wherein the