This OID tree represents the compiled SNMP MIB module ZXR10-SMI and includes only high-level compiled information. For more detail (mib object descriptions, Unit Types, Textual Conventions, Macro-definitions, etc.), please download the raw SNMP ASN.1 mib test file by clicking on the ZIP icon above.
To query a live agent with SNMP for objects in module ZXR10-SMI, use OidView Tools or SNMP. To capture and analyze snmp traps from a live agent with objects loaded from module ZXR10-SMI, use OidView Trap Manager SNMP.
Nowadays, many people so familiar about GPON. GPON is a next generation for Broadband Technologies from copper into optical connection.
Managed File Transfer Analytics, a step beyond visibility. Is named a leader in the 2017 Gartner Magic Quadrant for Content Collaboration Platforms (CCP). November 16, 2017| By Scott Lewis, Senior Director, Product & Solution Marketing, Axway. Gartner has stated in its recent Magic Quadrant for Content Collaboration. On the other hand with Managed File Transfer (MFT) solutions the use. Managed file transfer gartner magic quadrant 2017 axway. Apr 10, 2018 - Oracle today announced that it has been named a leader in Gartner's 2017 “Magic Quadrant for. Oracle Managed File Transfer. Jul 31, 2017 - Multi-vendor evaluation reports on using secure file productivity and. Has been named a leader in the 2017 Gartner Magic Quadrant for Content Collaboration Platforms (formerly Enterprise File Synchronization and Sharing). Axway (Syncplicity) a Leader in the Gartner Magic Quadrant for Content. Matrix: Selecting a Middleware-as-a-Service Suite for Hybrid Integration, 2017-18. Research Group's 2015 Managed File Transfer Vendor Landscape Report.
So GPON is better from previous generation like ADSL technologies.Using Optic as a medium connection make GPON is so powerful in delivering bandwidth than copper connection. Nowadays GPON is used for many Internet Service Provider to deliver their product like FTTH (Fiber To The home). Or sometimes that product can said with Triple-Play. What’s the meaning of triple, because nowadays some Provider using this products to deliver Three services like Internet / DATA / VPN, IPTV, and VOIP services. Here Example a Simple Topology: ONT is like an ADSL Modem, usually install at customer, and OLT is a Central operation where we can push configuration to deliver service to the customer. Okay, That’s it a little explanation about GPON that simply i known.
Here some Basic Command from OLT ZTE that i often to use: Checking OLT Uptime OL01#show system-group System Description: ZX Version V4. Started before: 47484 days, 5 hours, 25 minutes OL01# Checking OLT Board GTGOE = 8 Port (O = Octal) GTGH = 16 Port (H = Hexa) OL01#sho card Rack Shelf Slot CfgType RealType Port HardVer SoftVer Status ——————————————————————————- 1 1 0 PRWG PRWG N/A INSERVICE 1 1 1 PRWG PRWG N/A INSERVICE 1 1 2 GTGO GTGOE 8 110301 V1. INSERVICE 1 1 3 GTGH GTGHG 16 120700 V1.
INSERVICE 1 1 4 GTGO GTGOE 8 110301 V1.2 INSERVICE 1 1 5 GTGO GTGOE 8 110301 V1.2 INSERVICE 1 1 6 GTGO GTGOE 8 110301 V1 INSERVICE 1 1 7 GTGO GTGOE 8 110301 V1. INSERVICE 1 1 8 GTGO GTGOE 8 110301 V1 INSERVICE 1 1 9 GTGO GTGOE 8 110301 V1. INSERVICE 1 1 10 SCXN SCXN N/A 120902 V1. STANDBY – Control Module 1 1 11 SCXN SCXN N/A 120902 V1. INSERVICE – Control Module 1 1 12 GTGO GTGOE 8 110301 V1.
INSERVICE 1 1 13 GTGO GTGOE 8 110301 V1. INSERVICE 1 1 14 GTGO GTGOE 8 110301 V1. INSERVICE 1 1 15 GTGO GTGOE 8 110301 V1. INSERVICE 1 1 16 GTGO GTGOE 8 110301 V1. INSERVICE 1 1 17 GTGO GTGOE 8 110301 V1.
INSERVICE 1 1 18 GTGO GTGOE 8 110301 V1. INSERVICE 1 1 19 GTGO GTGOE 8 110301 V1.
INSERVICE 1 1 21 HUTQ HUTQ 4 100101 V1. INSERVICE – Uplink Module 1 1 22 HUTQ HUTQ 4 100101 V1.
Integrated Network Management System NetNumen N31 The integrated network management system provides centralized, unified network management for all ZTE NGN products including soft switch series, ZXA10 MSAN/MSAG, ZXA10 PON, ZXDSL series, terminal series, ZXR10/ZXB10/ZXE10 series、ZXWMN HLR and so on. It also provides customers with a unified management interface to other equipment vendors’ products.
Functionality. Topology and view management.
Fault management. performance management. Configuration Management. Report management.
Policy management. Version management. Diagnose test management. Log management. Security management. MIB management Characteristics.
Unified platform Operating, maintaining and managing various NEs on an Unified platform in a centralized way. Expandable platform Based on J2EE, it is an expandable platform to add more new NE management and new functions. Multiple types of OS and DB It supports multiple operation system such as windows and UNIX. It can run on multiple DBMS, such as SQL server. Powerful topology management It provides the graphical diagram of the whole network, including all the nodes and links.
All operation can be done via topology view. Powerful fault analysis Provides fault correlation analysis, such as alarm delay, alarm count, alarm restraint, alarm merger. Reliability Supports out-of-band and in-band management modes and provides hot-backup. Security Provides privileged access control and log records. Protocols. Southbound Protocols: SNMP (V1, V2C, V3): standards of various products and private MIB; TELNET and MML TR069.
Northbound Protocols: TL1 Syslog CORBA SNMP XML MML Capability. 256 users can be registered. 100 concurrent users can access the NM server simultaneously. Availability Single server:MTTR 70m MTBF 259200m AVAILABLITY 99.997% Redundant servers:MTTR 8.5m MTBF 259200m AVAILABLITY 99.9997% Position NetnumenTM N31 is located in a centralized way.
How to Configuring a GPON ONT (Distributed Mode) The MA5600T/MA5603T/MA5608T provides end users with services through the ONT. The MA5600T/MA5603T/MA5608T can manage the ONT and the ONT can work in the normal state only after the channel between the MA5600T/MA5603T/MA5608T and the ONT is available. Prerequisites The GPON ONT profile is already created. Configuring a GPON ONT Capability Profile and Configuring a GPON ONT Alarm Profile are already completed.
Context The MA5600T/MA5603T/MA5608T uses the ONT Management and Control Interface (OMCI) protocol to manage and configure the GPON ONT, and supports the offline configuration of the ONT. The ONT does not need to save the configuration information locally. This helps to provision services. Table 1 lists the default settings of the GPON ONT.
Parameter Default Setting ONT auto-find function of a GPON port Disabled ONT status after an ONT is added Activated Default VLAN of the ONT port 1 Configuration Process Figure 1 shows the process of configuring a GPON ONT. Figure 1 Process of configuring a GPON ONT Procedure 1.Add a GPON ONT.
A.Run the interface gpon command to enter the GPON mode. B.Run the port portid ont-auto-find command to enable the auto-find function of the ONT. After the function is enabled, you can add an ONT according to the information reported by the system. By default, the ONT auto-find function of a GPON port is disabled. NOTE: An auto-find ONT is in the auto-find state. The auto-find ONT can work in the normal state only after it is confirmed or added. C.Run the ont add command to add an ONT offline, or run the ont confirm command to confirm the auto-find ONT.
When ONTs are added or confirmed, the system provides four authentication modes: SN, password, SN+password, LOID+CHECKCODE. SN authentication: The OLT detects the serial number (SN) reported by an ONT. If the SN is consistent with the OLT configuration, authentication is passed and the ONT goes online. This mode requires recording all ONT SNs. Hence, it is used to confirm auto discovery ONTs and is not applicable to adding ONTs in batches. Password authentication: The OLT detects the password reported by an ONT.
If the password is consistent with the OLT configuration, the ONT goes online normally. This mode requires planning ONT passwords and does not require manually recording ONT SNs. Hence, it is applicable to adding ONTs in batches.
The password authentication provides two discovery modes: always-on and once-on. always-on: After first password authentication is passed, no SN is allocated and password authentication is always used in subsequent authentications. This discovery mode is easy for future maintenance. In the always-on discovery mode, configuration is not required to be modified when an ONT is replaced and only the password is required. The always-on discovery mode has lower security. If other users know the password, the users will illegally have service permissions. Once-on: After first password authentication is passed, an SN is automatically allocated and password+SN authentication is used in subsequent authentications.
An ONT can go online only after the correct password and SN are entered. The once-on authentication mode has high security. After an ONT is replaced or the password is mistakenly changed, the ONT needs to be configured again, which requires more maintenance effort. SN+password authentication: The OLT detects the password and SN reported by an ONT. If the password and SN are consistent with the OLT configuration, the ONT goes online normally.
This authentication mode has the highest security but it requires manually recording ONT SNs. LOID+CHECKCODE authentication: defined by a telecom operator.
In this authentication mode, LOID has 24 bytes, and CHECKCODE has 12 bytes and is optional. Whether 24 bytes or 36 bytes are used for authentication depends on data planning, which is unified over the entire network.
The OLT determines whether LOID+CHECKCODE reported by the ONT is the same as the configured one. If they are the same, the ONT authentication is passed. If they are different, the OLT obtains the ONT password and compares it with the last 10 bytes of the LOID. If they are the same, the ONT authentication is also passed. This operation is for compatibility with the ONTs using password authentication.
Adding ONTs in offline mode is applicable to the batch deployment scenario. All ONTs are added to the OLT to complete service provisioning beforehand. When a use subscribes to the service, an installation engineer takes an ONT to the user's house and completes configurations. After the ONT goes online and passes authentication (generally the password authentication mode or LOID authentication mode is used), the service is provisioned. Adding ONTs in auto discovery mode is applicable to the scenario where a small number of ONTs are added.
When users subscribe to the service, installation engineers take ONTs to the users' houses. After the ONTs go online, the OLT confirms the ONTs one by one. Generally, the MAC address authentication mode is used to confirm the ONTs.
NOTE: If the ONU is an independent NE and is directly managed by the NMS through the SNMP management mode, select the SNMP management mode. For this mode, you only need to configure the parameters for the GPON line and the parameters for the management channel on the OLT. If the ONU is not an independent NE and all its configuration data is issued by the OLT through OMCI, select the OMCI management mode. For this mode, you need to configure all parameters (including line parameters, UNI port parameters, and service parameters) that are required for the ONU on the OLT. Generally, the ONT management mode is set to the OMCI mode. D.(Optional) When the ONT management mode is the SNMP mode, you need to configure the SNMP management parameters for the ONT. The procedure is as follows: i.Run the ont ipconfig command to configure the management IP address of the ONT.
The IP address should not be in the same subnet for the IP address of the VLAN port. Ii.Run the ont snmp-profile command to bind the ONT with an SNMP profile. Run the snmp-profile add command to add an SNMP profile before the configuration. Iii.Run the ont snmp-route command to configure a static route for the NMS server, that is, configure the IP address of the next hop.
2.(Optional) Configure the VLAN of the ONT port. Run the ont port vlan command to configure the VLAN of the ONT port.
By default, all the ports on the ONT belong to VLAN 1. 3.(Optional) Configure the default VLAN (native VLAN) for the ONT port. Run the ont port native-vlan command to configure the default VLAN for the ONT port. By default, the default VLAN ID of the ONT port is 1. If the packets reported from a user (such a PC) to the ONT are untagged, the packets are tagged with the default VLAN of the port on the ONT and then reported to the OLT. If the packets reported from a user to the ONT are tagged, you need to configure the port VLAN of the ONT to be the same as the VLAN in the user tag. The packets are not tagged with the default VLAN of the port on the ONT but are reported to the OLT with the user tag.
4.Bind an alarm profile. Run the ont alarm-profile command to bind an alarm profile. Ensure that Configuring a GPON ONT Alarm Profile is completed before the configuration. 5.Bind a DBA profile. Run the tcont bind-profile command to bind a DBA profile to a T-CONT. A DBA profile can be bound to a T-CONT after an ONT is added.
Zte Gpon Snmp Management
6.Configure a GEM port. A.Run the gemport add command to add a GEM port. When adding a GEM port, select the correct attribute according to the service type.
B.Run the ont gemport bind command to bind the GEM port to an ONT T-CONT, that is, allocating the T-CONT resources to the GEM port. NOTE: If traffic streams are configured on a GEM port and an ONT is the working ONT in a single-homing protection group, the GEM port cannot be bound to or unbound from the ONT. C.Run the ont gemport mapping command to create the mapping between the GEM port and the ONT-side service.
7.Activate the ONT. Run the ont activate command to activate the ONT. The ONT can transmit services only when it is in the activated state. After being added, the ONT is in the activated state by default. The step is required only when the ONT is in the deactivated state.
8.Query the ONT status. Run the display ont info command to query the ONT running status, configuration status, and matching status.
ZTE GPON SNMP management IKARUS SNMP management system called Ikarus provides graphical interface between administrator and managed GPON network. Ikarus is developed by OFA company for management and maintance of ZTE GPON networks. The key feature of this system is simplicity. Ikarus focus on quick registration of new ONTs and easy configuration maintance of GPON network.
All new registered ONU are automatically added to monitoring and diagnose systems. Sophisticated monitoring system can recognise significant changes occured in network which activate alarm and network administrator will be informed by SMS or email. Ikarus also allow to do multiple changes, for example change bandwidth profile for specific group of ONUs.
Supported features Setup of triple-play services TV, Data (including the rate for the customer), Phone; specification of correct VLAN for a service Setup of security functions for ONT Firewall, DHCP Snooping, Option82, IP source guard ONT modes Setup of Bridge (eg. For different ports - typically for STB) Router; IP source selection - static, DHCP, PPPoE Optical power diagnostic Power level ONT/OLT, distance from OLT, temperature of ONT, firmware version, broken fiber detection, uptime/downtime ONT status monitoring Working, dying, loss; also support of restore defaults or reboot ONT. NMS Ikarus is working in cloud architecture. NMS server runs on CentOS and connection to NIX is ensured with redundant direct lines.
System based on this architecture doesn’t need install new programs. ISP login to NMS server through webpages via HTTP/HTTPS protocol from any devices. Every ISP have unique login and password.
Snmp Management Console
ISP can manage all OLT in his network after succesfull login. Change of configuration is applied immediately (SNMP OID is send to OLT).
NMS Ikarus can be connected with any account/billing system via SOAP / REST, now also by using webhooks. It allows automatic configuration of unregistered ONU according parameters stored in account/billing system. If ISP require to use own NMS server we can install Ikarus to ISP’s server placed in his network.
Download Zte Gpon Snmp Management
In the case of interest please contact us at [email protected]. NMS Ikarus can be customized for every ISP. We can change language, create several levels of administrator accounts and also we can add new functions to NMS.
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