The Future of Wireless Communication?

An extremely interesting article from the Economist hints at the possibility of bidding farewell to electrical signals as the prime means of wireless communication.

The article explains that chemical based communication as found in nature-animals do it (your dog leaving urine samples replete with telling "chemical markers" at every nook and corner during his walks or internal communications within the human body are examples), could be used to transmit data which would be read by sensors.

Present trials are crude at best, with very low speeds, but there is hope for higher data transmission becoming a reality in the future especially if messages can be encoded in the molecules themselves.

A particularly useful application of such technology is in disaster related search and rescue operations where the situation does not permit normal mobile communications. This happens when a building collapses as mobile services are not of much under the debris. However a group of robots could go under the collapsed material and leave each other chemical messages about what areas were searched and what has been found.

Another lesson to learn is that we should not preemptively put all our eggs in one basket  assuming that a particular technology is the best-please see my post titled "Disruptive Technology and Public Funding of High Speed Broadband Networks." under the label Technology

Renewable Energy for Powering Smart Phones

The Times of India today has an article that reports  that scientists have developed bio-batteries that use sugar to generate electricity enough to power cell phones for 10 days. These batteries are also lighter. In the Indian scenario this would be a boon. At present rural areas face heavy power cuts and people resort to unconventional means such using tractor batteries to charge cell phones.

The smart phone with its potential for job search, education, data, e-commerce  and e-government applications is the primary device though which the average Indian would access ICTs and ICT enabled services. Making it last is vital. Long lasting batteries are also vital from the disaster communications viewpoint.

Worship Worthy Connectivity

Its been a while since I blogged.

 Finally found inspiration in a story about a man who was saved from a tigress attack by mobile connectivity. In rural Madhya Pradesh (a state of India), on the outskirts of a national park, two villagers clambered up a tree to escape a tigress. The humble cell phone was how they could be rescued. So now the cell phone in question is being worshiped by its owner as yet another avatar or proof of God's presence.

In another article the FCC's drive for universal broadband connectivity is being seen as a shot in the arm for public safety communications.in USA.

ICTs have all the answers.

Technology and Universal Service

I have two pieces of information to share. Both of them are related to technology and  telecom penetration.

The first is the welcome initiative on the part of the  Reserve Bank of India (RBI) in exploring  the possibility of providing SMS-based mobile banking through a single application on all types of handsets.

It is reported that,

"A Technical Committee on Mobile Banking has been set up to "examine the options/alternatives including the feasibility of using encrypted SMS-based funds transfer using an application that can run on any type of handset for expansion of mobile banking in the country," the central bank said.The panel will conduct an in-depth study of the challenges faced by banks in taking mobile banking forward to the desired level. At the end of July, there were about 70 lakh users of mobile banking, which is currently offered by 78 banks.The panel will also examine "any other optimum solution" that would take mobile banking to every nook and corner of the country, in addition to drawing a road map for implementing the solutions or options recommended."

With mobile penetration outstripping land lines in India and smart phones becoming affordable, this measure could greatly address the yawning financial inclusion gap in the country. As an interesting aside, the promotion of mobile banking  is identified by the Economist as one possible way to reduce channelization of rural household savings into financially less productive assets such as cows, in India! The article is called Udder People's Money and makes for interesting reading. Please also see my previous post on mobile VAS.

The second is news about the use of  television and radio channels to transmit cellular signals when systems are pushed beyond capacity as during a disaster. "Mai Hassan, a PhD student has managed to [change] the shape of the wireless signal so she could transmit on channels that use radio or television frequencies. She then had to change the direction of transmission away from the original channel. Instead of using traditional antennas, which transmit signals in all directions , she used smart antennas in mobile phones. Smart antennas transmit signals in a single direction and can steer the beam to any direction. By manipulating the direction of the cellular signals, Hassan was able to transmit calls and texts to a receiver while avoiding any interference with the original radio and televisions signals."

Please see my previous posts on disaster communications. I am of the view that keeping the public (rather than only official first responders) connected is of critical importance during disasters.

The Oldest Item in the US Basket-Still Indispensable

An article in the Times of India on 8.9.13 titles "As PCOs hang up, distress calls drop" highlights the importance of public calling offices (PCOs) or pay phones as thet are called in some parts of the world. It is said that ever since the number PCOs are in decline, the number of calls being received from distressed children on the government funded Child Helpline has decreased sharply. As many of these children would be orphans, homeless or from marginalized segments of society, the Helpline would have been a lifeline of sorts to report mistreatment or to locate shelter. It is suggested that the solution lies in installing free phones to the child hotline. 

In India the Village Public Telephone (VPT) schemes were the first to be launched by the Universal Service Obligation Fund and have now been discontinued. As private PCOs outpaced the USOF subsidized in numbers and quality of service this was the right thing to do. However, the government does need to ensure the availability of PCOs in both rural and urban areas. 

One option could be to install purely government/CSR funded phones which can dial all types of public /welfare related hotlines and emergency services. These phones should also be equipped with assistive technologies to make them disabled friendly.This would serve the public well and is a worthy cause for USOF to espouse and support. The revenue earned from calls could meet some of the installation and maintenance costs.

Rapidly Deployable Disaster Resilient Communications-EU's ABSOLUTE Project

The ABSOLUTE project supported by EU's CORDIS programme promises to be capable of "Guaranteeing Communication Coverage In Event Of Disaster"

It is reported that,

ABSOLUTE, which kicked off in October 2012, aims to design and validate a network capable of providing flexible, secure and resilient broadband services. Telecommunication infrastructures play a key role in recovery operations in the aftermath of an emergency. In most cases, however, terrestrial infrastructure cannot guarantee reliable services for citizens and rescue teams, while current public safety networks simply cannot provide sufficient capacity for broadband applications.

This is what ABSOLUTE seeks to address. By using rapidly deployable flexible aerial platforms with embedded 4G EnodeBs (hardware connected to the mobile phone network that communicates directly with mobile handsets), this industry-driven project aims to show that resilient communication networks can be quickly assembled to provide secure and reliable broadband service over areas affected by large-scale unexpected events, such as natural disasters.

Please see previous posts on Disaster Communications and Emergency services including a post about a similar Google project called Loon.

Perhaps the Ministry of Communications & Technology, India could take a leaf out of EU's book to create a programme like CORDIS to support such innovative industry-government collaborations.

Well Organised Emergency Communications Capabilities

The recent events in Uttarakhand, India where floods have wreaked havoc destroying thousands of  lives and livelihoods, sweeping away whole villages, roads and mobile towers leaving thousands people stranded and in need of rescue, highlights the importance of preparedness, mitigation and meticulous planning for disaster management (DM). One aspect of this planning is emergency communications.

India is now beginning to take cognizance of  areas like single emergency number and priority call routing. However,  instead of a piecemeal approach, a more holistic approach would be far more effective.

Lets examine the issue of Priority Call Routing first. Please also see my previous blog at http://ictsforall.blogspot.in/2013/06/universal-access-to-emergency-services.html

Telecom Regulatory Authority of India's (TRAI) analysis as seen from its consultation paper  was as follows;

 TRAI’s reasons for the need for priority call routing during disasters include inter alia: 

• The wide variety of radio equipment used by various public safety organisations is frequently incompatible, preventing communication between responders.
• In extreme circumstances, official public safety systems may fail.
• Civil networks often provide greater capability for data communications than their public safety counterparts. The latter are often provided with very limited transmission capacity which is not upgraded as quickly as civil networks.
• NGOs and private sector responders play a critical role in response but may not have access to public safety networks. Often during disasters the civilian telephone networks are not so much destroyed as congested into uselessness. This can paralyze official response during disasters.

Based upon on the above premises, the consultation paper focuses primarily on network congestion issue and attempts to find ways and means to ensure that network congestion bottlenecks are eased for official and unofficial agencies involved in response and recovery.

Solutions suggested by TRAI: TRAI has suggested that one possible solution is network dimensioning (core network, POI circuits) in a manner that facilitates handling of increased volume of traffic during disasters. Needless to say, while telecommunication networks are dimensioned to meet mandated quality of service (QoS) standards keeping in view normal estimates of peak traffic, dimensioning to handle disasters would involve extra costs which telecom service providers may be reluctant to bear. The second option the TRAI has suggested is priority call routing for personnel involved in response and recovery. 

TRAI's analysis accepts that a  resilient telecommunication networks  (so as to cater to communications during disasters/ emergencies), would include (a) proper network  dimensioning, (b) emergency communication alternatives like satellite radio, ham radios and (c) a comprehensive strategy to rebuild or repair lost infrastructure. This is however considered to be a time consuming and costly exercise and hence priority call routing is suggested as an immediately implementable and less costly solution. 

TRAI goes on to describe:

a) The United States Government’s emergency phone service for the National Security for emergency preparedness community to communicate over the existing public switched telephone network (PSTN) with a high likelihood of call completion even during network congestion or disruption with the help of enhancements based upon existing commercial technology. This is called   Government Emergency Telecommunication Service (GETS) in case of landline systems. A similar system for wireless networks is the Wireless Priority Service (WPS). GETS and WPS are authentication based priority call routing systems but do not pre-empt on-going calls or preclude public use of the civilian network. 

b) Canada too has a WPS system similar to that of USA.

c) U.K’s Mobile Telecommunication Privileged Access Scheme (MTPAS). This system restricts civilian access to cellular phone networks during emergencies. It actively prevents civilian use from congesting the cellular networks, thus allowing emergency services personnel priority for communications. Entitled users are provided with special SIMs to enable communications, while normal users will receive a beep indicating that the network has been reserved for MPTAS –aware phones.

d) Certain other models of priority calling such as that based upon a mobile virtual network operator (MVNO) concept or enhanced multilevel precedence and pre-emption (eMLPP) have also been discussed. While the former would entail dedication of part network resources to the virtual emergency operator during crisis, the latter pre-empts radio resources based on assigned priority. 

My Comments are as follows:

Regarding TRAI’s assumptions about present shortcoming of DM communications systems and remedies thereof: 

(i) Ministry of Home Affairs (MHA) and National Disaster Management Authority (NDMA) are already making efforts to expeditiously establish and enhance disaster communications networks by way of National Disaster Communications Network , National Emergency Communications Plan Phase I and II schemes. This is to be  backed by Disaster Management (DM) information systems such as National Database for Emergency Management (NDEM)and National Disaster Management Informatics System (NDMIS) (with inbuilt Vulnerability Analysis & Risk Assessment and Decision Support  tools). 

(ii) Given the existence of the above mentioned  schemes, the establishment of a high capacity, resilient, comprehensive and inter-operable (compatible) DM communications network cannot be assumed to be time consuming and beyond immediate financial capability of the Government. However, due care must be taken to ensure inter-operability of networks and devices.

(iii) It may be noted that these schemes provide for communications facilities for District authorities National Disaster Response Force personnel and other field level functionaries who are the first responders. It is felt that all government agencies expected to be involved in emergency/disaster relief must mandatorily use/have access to inter-operable NDCN elements and post disaster, they must switch over to this system to free up the public telecommunications network to others. Further, reliance should be placed on pre-planned network augmentation and ad hoc networks as already provided in NDCN, rather than planning for preemption of the PSTN.(I discuss this further below)

(iv) In the light of the above, it would be appropriate for NDMA, MHA and TRAI etc.to align their respective approaches to Disaster related communications. It would be advisable to prioritize the expeditious roll out of these schemes ensuring adequate capacity and inter-operability, rather than to plan for procedures to take over public communications which are critical means of alerting normal citizens/potential victims of disaster and can greatly aid in rescue and relief operations.

Regarding the importance of public networks for victims of disasters and hence need for a holistic approach

(i) The overall teledensity in India is 79.58% (July 2012). Urban teledensity is 169% and rural teledensity is 40%. Internet/broadband penetration though not high (23 million internet and 14.57 million broadband subscribers), is increasing rapidly (18% growth of broadband subscribers over previous year). Along with availability and affordability of telecommunications services, basic mobile usage literacy and e-literacy is on the rise among Indians no matter which economic strata they belong to. Ordinary citizens either as victims or others are the first to be present on the scene of the disaster. Needless to say, communications are critical to their survival as it becomes a lifeline to obtain help. Modern technology also enables caller location facilities which are invaluable for rescue and relief workers to locate injured/trapped individuals.

(ii) Rather than restricting public access to critical communications facilities, congestion on networks can be avoided by having efficient and reliable disaster warning and information systems including internet based message boards which the public would rely on rather than relying on interpersonal communications to make (anxiety) calls.  We should also be considering early warning systems like IPAWS as an integral part of emergency communications .

(Please also see my previous post on this issue at http://ictsforall.blogspot.in/2013/06/communications-imperatives-in-disaster.html)

(iii) Government should plan to make effective use of TV and radio and internet enabled social media forums and message boards to this end. service providerss can play a critical role through message boards and SMS broadcasts. Community education is also an important facet. 

(iv) TRAI can play a critical role in recommending/mandating the specific duties and overall cooperation of service providers in this regard. TRAI has not analysed the Telecommunications Service Priority (TSP)  programme under USA's Office of Emergency Communication's for emergency communications. This needs to be put in place as a part of licensing conditions of service providers. 

(iv) Relief and rescue agencies should be able to receive emergency calls from public on the public network but should use dedicated communications resources to interface with each other.

Thus some concrete measures for the present would be:

(i) While most telecommunications infrastructure is necessarily designed to withstand normal climatic conditions of an area, TRAI could carry out an analysis of specific area-wise vulnerabilities in conjunction with NDMA and DoT, and accordingly mandate special technical standards for network resilience and dimensioning of telecommunication networks in highly vulnerable areas. DoT’s Telecom Engineering Centre has already prepared draft guidelines in this regard which could be used/refined. The additional cost borne for retrofitting or supplementing existing network elements could be borne by the Government. All future infrastructure, networks and services after a specified cut off date would however mandatorily comply with revised technical specifications.

ii. The Universal Service Obligation Fund of India is administered by an USOF Administrator and functions as an attached office of Department of Telecommunications.  As USOF is mandated to provide telecommunications services to the people in rural and remote areas at reasonable and affordable prices, it follows that the existence of robust and disaster resilient networks falls within USOF’s mandate. Thus a USOF scheme could be designed for one time upgrading of existing networks in such vulnerable rural areas. 

iii. TRAI should take into cognizance the fact that world over, increasing importance is being give to universal access to emergency services (across platforms, including IP networks) and caller location services are being mandated. 

iv. The availability and accessibility of emergency communications to the aged and disabled is also something that even developing countries are according increasing priority to. These fall in the purview of Universal Service in most countries and TRAI may recommend necessary action to DoT. 

v. It may be noted that the USOF Administration is funding a nationwide rural optic fibre network (NOFN) (through an SPV namely, Bharat Broadband Network Ltd) to connect 2.5 lakh village panchyats (local self government offices). NOFN can serve as a valuable backbone in times of disasters/emergencies. With a view to provide high capacity DM related connectivity, NOFN can provide fibre in the last mile to critical rural structures such as schools, hospitals apart from local administration. While redundancy is most likely an inbuilt design feature for NOFN, it should be specially ensured that NOFN has the necessary disaster resilience to extent possible. 

vi. TRAI may consider making recommendations to DoT on a national Disaster Management Plan for Telecommunications Infrastructure and Services. This is mandated under Section 37 of the Disaster Management Act 2005. This would cover every stage of the Disaster Management cycle from mitigation to relief and early recovery. Business Continuity Planning for service providers should be a part of the same.

vii. Finally a holistic approach may be adopted rather than picking up only one segement of international best practices for emergency communications

Innovation is the key to Universal Service-Use of Low Power Base Stations in Africa

One of the biggest bottlenecks to provision of mobile services in rural areas in developing countries is the non availability of power. In India diesel generators are used in rural areas. This  implies  interruption in service in case of disruption in diesel supply-a common problem in remote areas and environmental pollution. While renewable energy solutions like solar panels are being deployed, these are costly especially when serving conventional mobile towers and base stations.

The deployment of low power base stations  is a good solution in such cases. One such device is being used in Zambia as reported by David Talbot of Communications News at

http://www.technologyreview.com/news/515346/a-tiny-cell-phone-transmitter-takes-root-in-rural-africa/#comments

A related article on Ushahidi, a device for crisis communications may also be of interest particularly from an Emergency Communications view point.

Universal Access to Emergency Services

A very important aspect of Universal Service is accessibility of services to persons with disabilities (PwDs), the aged and the illiterate. This is essential not only for day to day communications which can help in mainstreaming and empowering people with special needs but also for emergency communications. The majority of  countries include free access to emergency at least vis-a-vis payphones in their UA/US related regulations.
However, while ensuring access to  emergency numbers is critical the reverse communication by way of accessible emergency alerts can also help save many lives in disaster situations. Needless to say these sections of the population are extremely vulnerable during disasters. In this regard it is interesting to read a FEMA report on  Alerting the Whole Community: Removing Barriers to  Alerting Accessibility at http://www.fema.gov/library/viewRecord.do?id=7599. This report also has an interesting observation to the effect that in the U.S text messaging is second the most preferred means of receiving emergency alerts for PwDs. Given the huge contrast between mobile and land line teledensities in India  this trend is a thought provoking one for policy makers and regulators in the area of disaster management and telecommunications.

Also of interest may be the recent Telecom Regulatory Authority of India consultation paper on Universal Single Number Based Integrated Emergency Communication and Response System which asks stakeholders whether SMS may be used for emergency access. The vast majority of stakeholders have agreed that this is important for the disabled.