Lorawan-server by Petr Gotthard

All current LoRaWAN gateway can support the connection to this LoRaWAN server. Some gateway models have this lorawan server built-in by default. They are:

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* HP0A

* HP0C

* LPS8v2

If for some reason, if the above model doesn't have this lorawan server in it. Users can install them manually.

== 2.1 Install lorawan server in Armbian System: ==

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=== Check if you have the Armbian system. ===

Run command:

(% class="box infomessage" %)

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(((

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uname -a

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cat /etc/debian_version

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)))

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[[image:image-20220526172628-2.png]]

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=== Install lorawan server ===

Run command:

(% class="box infomessage" %)

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wget https://github.com/gotthardp/lorawan-server/releases/download/v0.6.7/lorawan-server_0.6.7_all.deb

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dpkg -i lorawan-server_0.6.7_all.deb

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)))

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[[image:image-20220527085338-1.png||height="271" width="1145"]]

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At this point, lorawan-server is installed

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== 2.2 How do start lorawan server ==

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=== Setting the automatic startup and start/stop lorawan-server via systemctl ===

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If users want the server to start automatically after system reboot, run the command:

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(% class="box infomessage" %)

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systemctl enable lorawan-server

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)))

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start/stop lorawan-server via systemctl:

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(% class="box infomessage" %)

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systemctl start lorawan-server

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systemctl stop lorawan-server

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)))

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[[image:image-20220527091541-2.png||height="81" width="896"]]

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By default, the server listens on HTTP port 8080 and expects "admin" as both username and password. Users can access it via a web browser by entering the URL, where is the IP or the hostname of your server. [[http:~~/~~/ip_address:8080>>http://ip_address:8080]]

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= 3. Configure Gateway =

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== 3.1 Register Gateway ==

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[[image:image-20220531144134-1.png||height="623" width="965"]]

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Back to the page of Semtech UDP check the secondary server settings and click the button of **Save&Apply**

[[image:image-20220531144640-2.png]]

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If the user completes the above steps, you can check your gateway status on the built-in Lorawan server.

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[[image:image-20220531144914-3.png||height="657" width="964"]]

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[[image:image-20220531144957-4.png||height="425" width="970"]]

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= 4. Configure Sensors =

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== Step 1. Add the Networks ==

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**The following are examples of adding EU868 frequency nodes**

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See this link for more frequency configurations [[https:~~/~~/github.com/gotthardp/lorawan-server/blob/master/doc/Regions.md>>https://github.com/gotthardp/lorawan-server/blob/master/doc/Regions.md]]

(% class="box" %)

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1.Input the NetID* ~-~-> Random 6 digits

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2.Choose the Region* ~-~-> EU 863-870MHz

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3.Gateway Power ~-~-> Default value of EU868 is 16dBm

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)))

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[[image:image-20220601184816-1.png||height="608" width="958"]]

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**Configuration of ADR**

(% class="box" %)

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Max EIRP(dBm) * ~-~-> 16

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Max Power * ~-~-> Max

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Min Power * ~-~-> Max - 14 dB

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Max Date Rate * ~-~-> SF7 125kHz (5470 bit/s)

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Initial RX2 DR * ~-~-> SF12 125kHz (250 bit/s)

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Initial Duty Cycle ~-~-> 1 (100%)

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Initial RX1 DR Offset ~-~-> 0

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Initial RX2 Freq (MHz)* ~-~-> 869.525

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)))

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[[image:image-20220601185451-2.png||height="612" width="953"]]

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**Configuration of Channels**

(% class="box" %)

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Initial Channels ~-~-> eg. 0 - 2

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[[image:image-20220601190313-3.png||height="549" width="958"]]

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Finally, click "submit", Complete the Add Networks step.

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== Step 2. Create new group ==

(% class="box" %)

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Name ~-~-> custom

Network ~-~-> Enter the Networks configured in the preceding steps

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)))

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[[image:image-20220601200220-4.png||height="533" width="968"]]

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== Step 3. Create new profile ==

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[[image:image-20220601203544-5.png||height="494" width="982"]]

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== Step 4. Create new device ==

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[[image:image-20220601203837-6.png||height="577" width="983"]]

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== Checking node Status ==

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[[image:image-20220601204155-7.png||height="484" width="990"]]

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[[image:image-20220601204545-8.png||height="404" width="995"]]

Wiki source code of Lorawan-server by Petr Gotthard

Applications

Navigation

author	version	line-number	content
		1	~ Table of Contents:
		2
		3	{{toc/}}
		4
		5
		6
		7
		8
		9	= 1. Introduction =
		10
		11
		12	This is an Open Source LoRaWAN server from [[https:~~/~~/github.com/gotthardp/lorawan-server>>url:https://github.com/gotthardp/lorawan-server]].
		13
		14
		15
		16	= 2. Support Devices =
		17
		18
		19	All current LoRaWAN gateway can support the connection to this LoRaWAN server. Some gateway models have this lorawan server built-in by default. They are:
		20
		21	* HP0A
		22	* HP0C
		23	* LPS8v2
		24
		25
		26
		27	If for some reason, if the above model doesn't have this lorawan server in it. Users can install them manually.
		28
		29
		30
		31	== 2.1 Install lorawan server in Armbian System: ==
		32
		33	=== Check if you have the Armbian system. ===
		34
		35	Run command:
		36
		37	(% class="box infomessage" %)
		38	(((
		39	uname -a
		40	cat /etc/debian_version
		41	)))
		42
		43	[[image:image-20220526172628-2.png]]
		44
		45	=== Install lorawan server ===
		46
		47	Run command:
		48
		49	(% class="box infomessage" %)
		50	(((
		51	wget https://github.com/gotthardp/lorawan-server/releases/download/v0.6.7/lorawan-server_0.6.7_all.deb
		52	dpkg -i lorawan-server_0.6.7_all.deb
		53	)))
		54
		55	[[image:image-20220527085338-1.png\|\|height="271" width="1145"]]
		56
		57	At this point, lorawan-server is installed
		58
		59
		60	== 2.2 How do start lorawan server ==
		61
		62	=== Setting the automatic startup and start/stop lorawan-server via systemctl ===
		63
		64	If users want the server to start automatically after system reboot, run the command:
		65
		66	(% class="box infomessage" %)
		67	(((
		68	systemctl enable lorawan-server
		69	)))
		70
		71	start/stop lorawan-server via systemctl:
		72
		73	(% class="box infomessage" %)
		74	(((
		75	systemctl start lorawan-server
		76	systemctl stop lorawan-server
		77	)))
		78
		79	[[image:image-20220527091541-2.png\|\|height="81" width="896"]]
		80
		81	By default, the server listens on HTTP port 8080 and expects "admin" as both username and password. Users can access it via a web browser by entering the URL, where is the IP or the hostname of your server. [[http:~~/~~/ip_address:8080>>http://ip_address:8080]]
		82
		83
		84	= 3. Configure Gateway =
		85
		86	== 3.1 Register Gateway ==
		87
		88	[[image:image-20220531144134-1.png\|\|height="623" width="965"]]
		89
		90
		91	Back to the page of Semtech UDP check the secondary server settings and click the button of Save&Apply
		92
		93
		94
		95	[[image:image-20220531144640-2.png]]
		96
		97
		98	If the user completes the above steps, you can check your gateway status on the built-in Lorawan server.
		99
		100
		101	[[image:image-20220531144914-3.png\|\|height="657" width="964"]]
		102
		103
		104	[[image:image-20220531144957-4.png\|\|height="425" width="970"]]
		105
		106	= 4. Configure Sensors =
		107
		108	== Step 1. Add the Networks ==
		109
		110	The following are examples of adding EU868 frequency nodes
		111
		112	See this link for more frequency configurations [[https:~~/~~/github.com/gotthardp/lorawan-server/blob/master/doc/Regions.md>>https://github.com/gotthardp/lorawan-server/blob/master/doc/Regions.md]]
		113
		114	(% class="box" %)
		115	(((
		116	1.Input the NetID* ~-~-> Random 6 digits
		117
		118	2.Choose the Region* ~-~-> EU 863-870MHz
		119
		120	3.Gateway Power ~-~-> Default value of EU868 is 16dBm
		121	)))
		122
		123	[[image:image-20220601184816-1.png\|\|height="608" width="958"]]
		124
		125	Configuration of ADR
		126
		127	(% class="box" %)
		128	(((
		129	Max EIRP(dBm) * ~-~-> 16
		130
		131	Max Power * ~-~-> Max
		132
		133	Min Power * ~-~-> Max - 14 dB
		134
		135	Max Date Rate * ~-~-> SF7 125kHz (5470 bit/s)
		136
		137	Initial RX2 DR * ~-~-> SF12 125kHz (250 bit/s)
		138
		139	Initial Duty Cycle ~-~-> 1 (100%)
		140
		141	Initial RX1 DR Offset ~-~-> 0
		142
		143	Initial RX2 Freq (MHz)* ~-~-> 869.525
		144	)))
		145
		146	[[image:image-20220601185451-2.png\|\|height="612" width="953"]]
		147
		148	Configuration of Channels
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		150	(% class="box" %)
		151	(((
		152	Initial Channels ~-~-> eg. 0 - 2
		153	)))
		154
		155	[[image:image-20220601190313-3.png\|\|height="549" width="958"]]
		156
		157	Finally, click "submit", Complete the Add Networks step.
		158
		159	== Step 2. Create new group ==
		160
		161	(% class="box" %)
		162	(((
		163	Name ~-~-> custom
		164
		165	Network ~-~-> Enter the Networks configured in the preceding steps
		166	)))
		167
		168	[[image:image-20220601200220-4.png\|\|height="533" width="968"]]
		169
		170
		171	== Step 3. Create new profile ==
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		173	[[image:image-20220601203544-5.png\|\|height="494" width="982"]]
		174
		175
		176	== Step 4. Create new device ==
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		178	[[image:image-20220601203837-6.png\|\|height="577" width="983"]]
		179
		180
		181	== Checking node Status ==
		182
		183	[[image:image-20220601204155-7.png\|\|height="484" width="990"]]
		184
		185	[[image:image-20220601204545-8.png\|\|height="404" width="995"]]