Difference between revisions of "M2M Regulation"
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;National roaming: The ability to make use of multiple networks within a territory will be useful for many M2M and IoT applications. However, regulatory positions vary with some countries prohibiting the use of national roaming. | ;National roaming: The ability to make use of multiple networks within a territory will be useful for many M2M and IoT applications. However, regulatory positions vary with some countries prohibiting the use of national roaming. | ||
;Spectrum licensing:Technology choices for delivering M2M and IoT services may depend on what, how, and how much, spectrum is made available. The availability of White Space might have an influence of how M2M/IoT evolves, while there are licensing issues related to the use of alternative technologies such as Low Power Wide Area (LPWA). | ;Spectrum licensing:Technology choices for delivering M2M and IoT services may depend on what, how, and how much, spectrum is made available. The availability of White Space might have an influence of how M2M/IoT evolves, while there are licensing issues related to the use of alternative technologies such as Low Power Wide Area (LPWA). | ||
| − | ;Numbering: Several regulators have opted to allocate a dedicated number range for M2M. | + | ;Numbering: Several regulators have opted to allocate a dedicated number range for M2M. [https://en.wikipedia.org/wiki/E.164 ITU] has a E.164 numbering plan. This provides for geograhic based as well as international services and networks. |
;Data sovereignty: Different countries have starkly different rules about how data needs to be managed, for instance restrictions on whether the data can leave the country. | ;Data sovereignty: Different countries have starkly different rules about how data needs to be managed, for instance restrictions on whether the data can leave the country. | ||
;Data privacy: There have been some very high-profile instances of regulation relating to personal data (e.g. the ‘right to be forgotten’ in the EU). Many of these issues relating to personal data privacy will have implications also for M2M and IoT. | ;Data privacy: There have been some very high-profile instances of regulation relating to personal data (e.g. the ‘right to be forgotten’ in the EU). Many of these issues relating to personal data privacy will have implications also for M2M and IoT. | ||
:Other regulatory issues: There are a number of other regulatory issues, including subscriber registration and taxation that will have an impact on M2M and IoT. | :Other regulatory issues: There are a number of other regulatory issues, including subscriber registration and taxation that will have an impact on M2M and IoT. | ||
| + | |||
| + | ===DNS mapping of E.164 numbers=== | ||
| + | From Wikipedia | ||
| + | Some national telephone bodies or telephone companies have implemented an Internet-based database for their numbering spaces. E.164 numbers may be used in the Domain Name System (DNS) of the Internet in which the second-level domain e164.arpa has been reserved for telephone number mapping (ENUM). In the system, any phone number may be mapped into a domain name using a reverse sequence of subdomains for each digit. For example, the telephone number +19995550123 translates to the domain name 3.2.1.0.5.5.5.9.9.9.1.e164.arpa.[3] | ||
== Bodies == | == Bodies == | ||
==TRAI== | ==TRAI== | ||
Revision as of 06:36, 6 November 2017
Contents
Issues
Machina Resarch identifed the following themes
- Permanent roaming
- The ability to offer services globally is a critical one for supporting many vertical sectors including automotive and consumer electronics. Regulatory prohibition of permanent roaming will fundamentally influence how connectivity is provided.
- National roaming
- The ability to make use of multiple networks within a territory will be useful for many M2M and IoT applications. However, regulatory positions vary with some countries prohibiting the use of national roaming.
- Spectrum licensing
- Technology choices for delivering M2M and IoT services may depend on what, how, and how much, spectrum is made available. The availability of White Space might have an influence of how M2M/IoT evolves, while there are licensing issues related to the use of alternative technologies such as Low Power Wide Area (LPWA).
- Numbering
- Several regulators have opted to allocate a dedicated number range for M2M. ITU has a E.164 numbering plan. This provides for geograhic based as well as international services and networks.
- Data sovereignty
- Different countries have starkly different rules about how data needs to be managed, for instance restrictions on whether the data can leave the country.
- Data privacy
- There have been some very high-profile instances of regulation relating to personal data (e.g. the ‘right to be forgotten’ in the EU). Many of these issues relating to personal data privacy will have implications also for M2M and IoT.
- Other regulatory issues: There are a number of other regulatory issues, including subscriber registration and taxation that will have an impact on M2M and IoT.
DNS mapping of E.164 numbers
From Wikipedia Some national telephone bodies or telephone companies have implemented an Internet-based database for their numbering spaces. E.164 numbers may be used in the Domain Name System (DNS) of the Internet in which the second-level domain e164.arpa has been reserved for telephone number mapping (ENUM). In the system, any phone number may be mapped into a domain name using a reverse sequence of subdomains for each digit. For example, the telephone number +19995550123 translates to the domain name 3.2.1.0.5.5.5.9.9.9.1.e164.arpa.[3]
