"There is this huge speed bump in the road to realize cyberspace situational awareness. Cyberspace has grown so far so fast in such a short time, that all of us have little to no control over the unforeseen consequences this brings to our lives. Would a sane society create a system which they cannot hope to control or even visualize? Think about it."
After mulling over self-publishing a cyberspace situational awareness mini-series starting with a short book on human cyber consciousness, I think it is best I delay writing a book and focus on software development. The general idea of human cyber consciousness is indirectly discussed in this... (0 Replies)
Our team just published this technical report on ResearchGate:
Virtualized Cyberspace - Visualizing Patterns & Anomalies for Cognitive Cyber Situational Awareness
ABSTRACT
ACKNOWLEDGMENTS
Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International Public License This... (0 Replies)
Richard Zuech annotates his first experience flying in virtualized cyberspace hunting the bad guys!
... and he finds some!
Application for Virtualizing CyberSpace like Outer Space for Cyberspace Situational Awareness (0 Replies)
Please message me or post in this thread if anyone is interested in contributing some C, C++, or C# code for this project. Right now we have an open source C++ git project (created by someone else a few years ago) that fails when we try to compile on Ubuntu. I need someone to fix the make... (4 Replies)
Here is an end-of-year update of my CSA research for 2016. A BIG THANK YOU to everyone at unix.com who keeps the forums running so well as I write code for cyberspace situational awareness experiments and do my research.
I am still hopelessly trying to save the world from the unintended... (6 Replies)
Hi.
I've been very busy this month working on resurrecting my old projects related to "cyberspace situational awareness" (CSA) which began last month by surveying the downstream literature that referenced my papers in this area using Google Scholar and also ResearchGate and posting updates on my... (5 Replies)
SUMO(1) User Commands SUMO(1)NAME
SUMO - Road network generator for the microscopic road traffic simulation SUMO
SYNOPSIS
netgensumo [OPTION]*
DESCRIPTION
SUMO netgensumo Version 0.15.0
Copyright (C) 2001-2012 DLR and contributors; http://sumo.sourceforge.net
Road network generator for the microscopic road traffic simulation SUMO.
Either "--grid", "--spider" or "--rand" must be supplied.
In dependance to these switches other options are used.
Configuration Options:
-c, --configuration-file FILE
Loads the named config on startup
--save-configuration FILE
Saves current configuration into FILE
--save-template FILE
Saves a configuration template (empty) into FILE
--save-schema FILE
Saves the configuration schema into FILE
--save-commented
Adds comments to saved template, configuration, or schema
Grid Network Options:
-g, --grid
Forces NETGENSUMO to build a grid-like network
--grid.number INT
The number of junctions in both dirs
--grid.length FLOAT
The length of streets in both dirs
--grid.x-number INT
The number of junctions in x-dir; Overrides --grid-number
--grid.y-number INT
The number of junctions in y-dir; Overrides --grid-number
--grid.x-length FLOAT
The length of horizontal streets; Overrides --grid-length
--grid.y-length FLOAT
The length of vertical streets; Overrides --grid-length
--grid.attach-length FLOAT
The length of streets attached at the boundary; 0 means no streets are attached
Spider Network Options:
-s, --spider
Forces NETGENSUMO to build a spider-net-like network
--spider.arm-number INT
The number of axes within the net
--spider.circle-number INT
The number of circles of the net
--spider.space-radius FLOAT
The distances between the circles
--spider.omit-center
Omit the central node of the network
Random Network Options:
-r, --rand
Forces NETGENSUMO to build a random network
--rand.iterations INT
Describes how many times an edge shall be added to the net
--rand.bidi-probability FLOAT
Defines the probability to build a reverse edge
--rand.max-distance FLOAT
--rand.min-distance FLOAT
--rand.min-angle FLOAT
--rand.num-tries INT
--rand.connectivity FLOAT
--rand.neighbor-dist1 FLOAT
--rand.neighbor-dist2 FLOAT
--rand.neighbor-dist3 FLOAT
--rand.neighbor-dist4 FLOAT
--rand.neighbor-dist5 FLOAT
--rand.neighbor-dist6 FLOAT
Output Options:
-o, --output-file FILE
The generated net will be written to FILE
--plain-output-prefix FILE
Prefix of files to write plain xml nodes, edges and connections to
--junctions.join-output FILE
Writes information about joined junctions to FILE (can be loaded as additional node-file to reproduce joins
-M, --map-output FILE
Writes joined edges information to FILE
--matsim-output FILE
The generated net will be written to FILE using MATsim format.
--opendrive-output FILE
The generated net will be written to FILE using openDRIVE format.
--output.street-names
Street names will be included in the output (if available).
TLS Building Options:
--tls.set STR
Interprets STR as list of junctions to be controlled by TLS
--tls.unset STR
Interprets STR as list of junctions to be not controlled by TLS
--tls.guess
Turns on TLS guessing
--tls-guess.joining
Includes node clusters into guess
--tls.join
Tries to cluster tls-controlled nodes
--tls.green.time INT
Use INT as green phase duration
-D, --tls.yellow.min-decel FLOAT
Defines smallest vehicle deceleration
--tls.yellow.patch-small
Given yellow times are patched even if being too short
--tls.yellow.time INT
Set INT as fixed time for yellow phase durations
--tls.half-offset STR
TLSs in STR will be shifted by half-phase
--tls.quarter-offset STR
TLSs in STR will be shifted by quarter-phase
Edge Removal Options:
--keep-edges.min-speed FLOAT
Only keep edges with speed > FLOAT
--remove-edges.explicit STR
Remove edges in STR
--keep-edges.explicit STR
Only keep edges in STR
--keep-edges.input-file FILE
Only keep edges in FILE
--keep-edges.in-boundary STR
Only keep edges which are located within the given boundary (given either as CARTESIAN corner coordinates <xmin,ymin,xmax,ymax> or
as polygon <x0,y0,x1,y1,...>)
Unregulated Nodes Options:
--keep-nodes-unregulated
All nodes will be unregulated
--keep-nodes-unregulated.explicit STR
Do not regulate nodes in STR
--keep-nodes-unregulated.district-nodes
Do not regulate district nodes
Processing Options:
--no-internal-links
Omits internal links
--no-turnarounds
Disables building turnarounds
--no-turnarounds.tls
Disables building turnarounds at tls-controlled junctions
--no-left-connections
Disables building connections to left
--offset.disable-normalization
Turn off normalizing node positions
--offset.x FLOAT
Adds FLOAT to net x-positions
--offset.y FLOAT
Adds FLOAT to net y-positions
--flip-y-axis
Flips the y-coordinate along zero
--roundabouts.guess
Enable roundabout-guessing
--lefthand
Assumes left-hand traffic on the network
--junctions.join
Joins junctions that are close to each other (recommended for OSM import)
--junctions.join-dist FLOAT
Determines the maximal distance for joining junctions (defaults to 15)
Building Defaults Options:
-L, --default.lanenumber INT
The default number of lanes in an edge
-S, --default.speed FLOAT
The default speed on an edge (in m/s)
-P, --default.priority INT
The default priority of an edge
-j, --default-junction-type STR
[traffic_light|priority|right_before_left] Determines the type of the build junctions
Report Options:
-v, --verbose
Switches to verbose output
-p, --print-options
Prints option values before processing
-?, --help
Prints this screen
-V, --version
Prints the current version
-W, --no-warnings
Disables output of warnings
-l, --log FILE
Writes all messages to FILE (implies verbose)
--message-log FILE
Writes all non-error messages to FILE (implies verbose)
--error-log FILE
Writes all warnings and errors to FILE
Random Number Options:
--random
Initialises the random number generator with the current system time
--seed INT
Initialises the random number generator with the given value
EXAMPLES
netgensumo -c <CONFIGURATION>
create net from given configuration
netgensumo --grid [grid-network options] -o <OUTPUTFILE>
create grid net
netgensumo --spider [spider-network options] -o <OUTPUTFILE>
create spider net
netgensumo --rand [random-network options] -o <OUTPUTFILE>
create random net
REPORTING BUGS
Report bugs at <http://sourceforge.net/apps/trac/sumo/>.
Get in contact via <sumo-user@lists.sourceforge.net>.
Copyright (C) 2001-2012 DLR and contributors; http://sumo.sourceforge.net
SUMO netgensumo Version 0.15.0 is part of SUMO.
SUMO is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free
Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with this program. If not, see http://www.gnu.org/licenses/gpl.html
SUMO netgensumo Version 0.15.0 May 2012 SUMO(1)