Congestion control method, congestion control device, congestion control program

The invention claimed is: 1. A congestion control method in an Internet Protocol (IP) phone system, comprising: acquiring a number of simultaneous call sessions in one line shared by a plurality of IP phones; acquiring a call time of each call session; setting a priority ranking of each call session based on the call time of each call session, wherein the longer the call time is, the lower the priority ranking is set, and the shorter the call time is, the higher the priority ranking is set; and dynamically controlling packet loss rates of the call sessions in accordance with the number of the simultaneous call sessions and the priority ranking, wherein the higher the priority ranking is, the lower the packet loss rate is set, and the lower the priority ranking is, the higher the packet loss rate is set. 2. The congestion control method according to claim 1 , further comprising when establishment of a new call session causes the number of simultaneous call sessions to exceed a predetermined upper limit, setting the packet loss rate of the new call session to 100%. 3. The congestion control method according to claim 1 , wherein the IP phone system includes a base station and a terminal station that communicates with the base station, and the one line is a line between the base station and the terminal station. 4. A non-transitory computer readable medium storing one or more instructions causing a computer in an Internet Protocol (IP) phone system to execute: acquiring a number of simultaneous call sessions in one line shared by a plurality of IP phones; acquiring a call time of each call session; setting a priority ranking of each call session based on the call time of each call session, wherein the longer the call time is, the lower the priority ranking is set, and the shorter the call time is, the higher the priority ranking is set; and dynamically controlling packet loss rates of the call sessions in accordance with the number of the simultaneous call sessions and the priority ranking, wherein the higher the priority ranking is, the lower the packet loss rate is set, and the lower the priority ranking is, the higher the packet loss rate is set. 5. A congestion control apparatus in an Internet Protocol (IP) phone system, comprising an information processing apparatus, the information processing apparatus being configured to execute: acquiring a number of simultaneous call sessions in one line shared by a plurality of IP phones; acquiring a call time of each call session; setting a priority ranking of each call session based on the call time of each call session, wherein the longer the call time is, the lower the priority ranking is set, and the shorter the call time is, the higher the priority ranking is set; and dynamically controlling packet loss rates of the call sessions in accordance with the number of the simultaneous call sessions and the priority ranking, wherein the information processing apparatus sets the packet loss rate such that the higher the priority ranking is, the lower the packet loss rate is set, and the lower the priority ranking is, the higher the packet loss rate is set. 6. The congestion control apparatus according to claim 5 , wherein the information processing apparatus is further configured to execute: when establishment of a new call session causes the number of simultaneous call sessions to exceed a predetermined upper limit, set the packet loss rate of the new call session to 100%. 7. The non-transitory computer readable medium according to claim 4 , wherein the one or more instructions cause the computer to execute: when establishment of a new call session causes the number of simultaneous call sessions to exceed a predetermined upper limit, setting the packet loss rate of the new call session to 100%. 8. The non-transitory computer readable medium according to claim 4 , wherein the IP phone system includes a base station and a terminal station that communicates with the base station, and the one line is a line between the base station and the terminal station. 9. The congestion control apparatus according to claim 5 , wherein the IP phone system includes a base station and a terminal station that communicates with the base station, and the one line is a line between the base station and the terminal station. 10. The congestion control method according to claim 1 , wherein in response to the number of the simultaneous call sessions being less than a first predetermined value, setting the packet loss rate of each call session to be 0%; and in response to the number of the simultaneous call sessions being greater than the first predetermined value and less than a second predetermined value, setting the packet loss rate of each call session to be between 0% and 100%.