one的配置文件说明

#
# Default settings for the simulation
#

## Scenario settings
#想定名称的作用,主要是生成report文件名称的一部分,
#最好每次运行的时候加一个编号,以免仿真结束生成的报告覆盖上一次结果。
Scenario.name = default_scenario

#是否模拟节点连接的动作,
#true则GUI界面中节点一直在动,而且会显示节点间的连接状况
Scenario.simulateConnections = true

#时间步进,单位为s,
#ONE是时间驱动模型,通过累加时间片来模拟时间的推进
#另一个比较有名的商业网络仿真器OPNET,则是事件驱动,
#事件驱动就是以事件为单位来模拟时间推进的过程。
Scenario.updateInterval = 0.1

# 43200s == 12h
#仿真整个过程持续时间
Scenario.endTime = 43200

#interface可以理解为DTN节点上的无线网卡,
#在仿真器中的功能主要是判断两个节点是否连通
#以及连通的传输速率,常量和变量都可以。
## Interface-specific settings:
# type : 属于interface包中的哪个类,直接写类名称
# For different types, the sub-parameters are interface-specific
# 对于SimpleBroadcastInterface, 参数如下:
# transmitSpeed : interface传输速率 (比特每秒)
# transmitRange : interface传输范围 (米)

# "Bluetooth" interface for all nodes
btInterface.type = SimpleBroadcastInterface
# Transmit speed of 2 Mbps = 250kBps
btInterface.transmitSpeed = 250k
btInterface.transmitRange = 10

# High speed, long range, interface for group 4
highspeedInterface.type = SimpleBroadcastInterface
highspeedInterface.transmitSpeed = 10M
highspeedInterface.transmitRange = 1000

# Define 6 different node groups
Scenario.nrofHostGroups = 6

## Group-specific settings:
# One中节点的组织是通过组实现的,属于同一组的所有节点的参数配置一样
# groupID : Group's identifier. Used as the prefix of host names
# nrofHosts: number of hosts in the group
# movementModel: movement model of the hosts (valid class name from movement package)
# waitTime: minimum and maximum wait times (seconds) after reaching destination
# speed: minimum and maximum speeds (m/s) when moving on a path
# bufferSize: size of the message buffer (bytes)
# router: router used to route messages (valid class name from routing package)
# activeTimes: Time intervals when the nodes in the group are active (start1, end1, start2, end2, ...)
# msgTtl : TTL (minutes) of the messages created by this host group, default=infinite

## Group and movement model specific settings
# pois: Points Of Interest indexes and probabilities (poiIndex1, poiProb1, poiIndex2, poiProb2, ... )
#       for ShortestPathMapBasedMovement
# okMaps : which map nodes are OK for the group (map file indexes), default=all
#          for all MapBasedMovent models
# routeFile: route's file path - for MapRouteMovement
# routeType: route's type - for MapRouteMovement

#当仿真场景中涉及到多个组,那么可以设置所有组都默认的设置
#然后在具体每个组再根据自己的特点进行设置,这样的设计可以简化节点配置
# Common settings for all groups
Group.movementModel = ShortestPathMapBasedMovement
Group.router = EpidemicOracleRouter
Group.bufferSize = 2000M
Group.waitTime = 0, 120
# All nodes have the bluetooth interface
Group.nrofInterfaces = 1
Group.interface1 = btInterface
# Walking speeds
Group.speed = 0.5, 1.5
# Message TTL of 300 minutes (5 hours)
Group.msgTtl = 300

Group.nrofHosts = 40

# group1 (pedestrians) specific settings
Group1.groupID = p

# group2 specific settings
Group2.groupID = c
# cars can drive only on roads
Group2.okMaps = 1
# 10-50 km/h
Group2.speed = 2.7, 13.9

# another group of pedestrians
Group3.groupID = w

# The Tram groups
Group4.groupID = t
#Group4.bufferSize = 1000M
Group4.movementModel = ShortestPathMapBasedMovement
Group4.routeFile = data/tram3.wkt
Group4.routeType = 1
Group4.waitTime = 10, 30
Group4.speed = 7, 10
Group4.nrofHosts = 2
Group4.nrofInterfaces = 2
Group4.interface1 = btInterface
Group4.interface2 = highspeedInterface

Group5.groupID = t
#Group5.bufferSize = 1000M
Group5.movementModel = ShortestPathMapBasedMovement
Group5.routeFile = data/tram4.wkt
Group5.routeType = 2
Group5.waitTime = 10, 30
Group5.speed = 7, 10
Group5.nrofHosts = 2

Group6.groupID = t
#Group6.bufferSize = 1000M
Group6.movementModel = ShortestPathMapBasedMovement
Group6.routeFile = data/tram10.wkt
Group6.routeType = 2
Group6.waitTime = 10, 30
Group6.speed = 7, 10
Group6.nrofHosts = 2


## 消息生成参数
# 事件发生器数量
Events.nrof = 1
# 事件发生器一的类名
Events1.class = MessageEventGenerator
# (following settings are specific for the MessageEventGenerator class)
#消息生成的时间间隔,(在25~35秒之间生成一个消息)
Events1.interval = 25,35
# 消息大小 (500kB - 1MB)
Events1.size = 500k,1M
# 消息源节点和目的节点的地址范围
#(one中节点的地址就是一个整形数字)
Events1.hosts = 0,125
# 消息ID前缀
Events1.prefix = M


## 移动模型的设置
# seed for movement models' pseudo random number generator (default = 0)
MovementModel.rngSeed = 1
# World's size for Movement Models without implicit size (width, height; meters)
MovementModel.worldSize = 4500, 3400
# How long time to move hosts in the world before real simulation
MovementModel.warmup = 1000

## Map based movement -movement model specific settings
MapBasedMovement.nrofMapFiles = 4

MapBasedMovement.mapFile1 = data/roads.wkt
MapBasedMovement.mapFile2 = data/main_roads.wkt
MapBasedMovement.mapFile3 = data/pedestrian_paths.wkt
MapBasedMovement.mapFile4 = data/shops.wkt

## Reports - all report names have to be valid report classes
#所有报告都是在report包中的类名指定
#报告的数量,或者最后需要输出多少种报告
Report.nrofReports = 5
#启动时间,或者说从什么时候开始收集数据 (模拟器的相对时间,单位是秒)
Report.warmup = 0
#报告生成的文件默认存放目录,相对于ONE源码顶级目录开始
#如果是多次仿真对比结果,需要每一次都修改为不同的目录,以免被覆盖
#或者修改最开始的Scenario的名称
Report.reportDir = reports/
#需要生成哪些报告,每个报告在上面的目录下生成一个txt文件。
Report.report1 = MessageStatsReport
Report.report2 = MessageDelayReport
Report.report3 = MessageDeliveryReport
Report.report4 = MessageGraphvizReport
Report.report5 = MessageReport


## Default settings for some routers settings
ProphetRouter.secondsInTimeUnit = 30
SprayAndWaitRouter.nrofCopies = 6
SprayAndWaitRouter.binaryMode = true

## 优化设置,会影响到仿真的速度
## 详细见core.world类
Optimization.cellSizeMult = 5
Optimization.randomizeUpdateOrder = true


#界面设置
## GUI settings

# GUI underlay image settings
GUI.UnderlayImage.fileName = data/helsinki_underlay.png
# Image offset in pixels (x, y)
GUI.UnderlayImage.offset = 64, 20
# Scaling factor for the image
GUI.UnderlayImage.scale = 4.75
# Image rotation (radians)
GUI.UnderlayImage.rotate = -0.015

# how many events to show in the log panel (default = 30)
GUI.EventLogPanel.nrofEvents = 100
# Regular Expression log filter (see Pattern-class from the Java API for RE-matching details)
#GUI.EventLogPanel.REfilter = .*p[1-9]<->p[1-9]$

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